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# include "common.h"
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# include "json.hpp"
# include "json-schema-to-grammar.h"
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# include "llama.h"
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# include <algorithm>
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# include <cassert>
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# include <cmath>
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# include <cstring>
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# include <ctime>
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# include <fstream>
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# include <iterator>
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# include <iostream>
# include <regex>
llama : new sampling algorithms (#1126)
* Sample interface, new samplers.
New samplers:
- locally typical sampling
- tail free sampling
- frequency and presence penalty
- mirostat
Ignore EOS fix: -inf should be used.
* mirostat
* Added --logit-bias and --no-penalize-nl, removed std::span
* Use C++11, clarify llama API documentation, rename Mirostat parameters to --mirostat_lr and --mirostat_ent, add temperature sampling for Mirostat, simplify Mirostat sampling API parameters (removed N and *k)
Use C++11, clarify llama API documentation, rename Mirostat parameters to --mirostat_lr and --mirostat_ent, add temperature sampling for Mirostat, simplify Mirostat sampling API parameters (removed N and *k)
* Save and load example adjust
* Tests
* Windows build fix
* Windows test fix
2023-04-29 05:34:41 +00:00
# include <sstream>
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# include <string>
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# include <unordered_map>
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# include <unordered_set>
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# include <vector>
train : mem usage and other improvements (#2439)
* fix track_max_mem in forward_batch_wo_cache_flash_attn_train
* remove unnecessary Adam(W) optimizer tensors.
reduces optimizer memory overhead from 7*modelsize to 2*modelsize.
additionally allows to optimize models with more than 2^31 parameters by replacing int with int64_t.
bumps training checkpoint file version, but old checkpoints can still be read.
new version with less tensors is saved.
* add gradient clipping to AdamW
* Fix reset of unused g->nodes and g->grads to NULL
* implement gradient checkpointing for training
reduces memory overhead from O(n_layer) to O(sqrt(n_layer))
as explained in readme of https://github.com/cybertronai/gradient-checkpointing
* remove unused compute buffer 3
* add and use function ggml_build_backward_expand to avoid stack overflows with large maximum number of nodes
GGML_API void ggml_build_backward_expand(struct ggml_context * ctx, struct ggml_cgraph * gf, struct ggml_cgraph * gb, bool keep);
* change AdamW decay parameter to work like the torch AdamW decay parameter
It is now relative to Adam learning rate `alpha*sched`.
Before that it was relative to `sched` only.
`alpha` being the maximum learning rate and `sched` being a scaling parameter in [0..1]
* change default AdamW weight decay parameter used in training to 0.1 as used in nanoGPT
* change default AdamW weight decay parameter defined in ggml to 0.0, making Adam default instead of AdamW
btw: the default weight decay parameter for torch.optim.AdamW is 0.01
* bug fixes for cross entropy loss
ggml_cross_entropy_loss: sums where not correctly added in workload of each thread
ggml_cross_entropy_loss_back: simplify backward process, reducing numerical issues
guard usage of exp f16 lookup in cross entropy by #define GGML_CROSS_ENTROPY_EXP_FP16
cross entropy loss is only used once during training, but it is quite sensitive to numerical errors introduced by exp-f16-lookup.
so exp-f16-lookup for cross entropy loss is disabled by default, trading better gradients for very slightly worse runtime performance.
* fix test-grad0 for cross_entropy_loss
the second argument to cross_entropy_loss must sum up to 1 for each row
* fix test-grad0 for soft_max
dont use only sum as aggregation, because sum of softmax is always 1 -> finite differences should not work
instead use sum(log(soft_max()*(1-eps)+eps)); use eps to avoid log(0)
* improve finite differences of test-grad0 by using double instead of float
* change cross_entropy_loss to output average over all rows
this helps keeping the loss and gradients in a sane range
* improve gradient checkpointing
sqrt(n_layers) is only the best checkpoint step when mem size of checkpoints and mem size of layers are equal.
since layers require more memory than the single-tensor-checkpoint we use, the optimal values are compute different:
```
given: n, u, v
objective: minimize(a*u+b*v) where a*b=n, a>0, b>0
b=n/a
minimize(a*u+v*n/a)
diff(a*u+v*n/a, a) = u - (v*n/a)/a
diff(a*u+v*n/a, a) == 0
u - (v*n/a)/a == 0
u == v*n/(a*a)
u*a*a = v*n
a*a = v*n/u
a = sqrt(n*v/u)
```
this change results in more checkpoints, requiring less layers to store between checkpoints, overall improving memory usage.
* disable gradient checkpointing debug output
* llama : fix rope usage in train-text-from-scratch after ChatGLM change
* add more training parameters:
--enable-restart N Only for Adam optimizer. Enable restarts of cos-decay
--disable-restart N Only for Adam optimizer. Disable restarts of cos-decay
--opt-past N Number of optimization iterations to track for delta convergence test. Disabled when zero.
--opt-delta N Maximum delta for delta convergence test. Disabled when <= zero.
--opt-max-no-improvement N Maximum number of optimization iterations with no improvement. Disabled when <= zero.
--adam-epsf N AdamW epsilon for convergence test. Disabled when <= zero.
--adam-min-alpha N Adam minimum learning rate alpha, usually 0.1 * alpha
* replace memcpy with reshape operation so that the graph is not cut at the input
this makes it possible to store other values into the input tensor and then simply recompute the graph without rebuilding it
* remove unused function argument from get_example_targets_batch
* measure and print total training time
* add optimization callback to ggml_opt_resume_g
this callback is called before each iteration with custom data and pointer to learning schedule parameter (only used in Adam(W)).
can be used for dynamic learning schedule and setting input data for batches before each iteration
* use optimization callback in training
allows dynamic learning schedule and different batch data for each iteration without relying on low n_iter and high n_examples parameters
reduces runtime by avoiding restart of optimization function and improves training convergence by providing a different batch for each iteration
* add minimum number of tensor dimensions to apply weight decay (default 2)
this allows to not apply weight decay to bias parameters
* rename training parameter cos-decay-alpha to cos-decay-min and clarify that adam-min-alpha also applies to warmup
* fix increase of model.train_samples and model.train_tokens
now that each optimizer iteration gets its own batch we need to multiply by number of opt iterations
* change sampling parameters for prediction after training to defaults of common.h
and clarify what is context for prediction and what are generated tokens
* tighten abs error bounds for cross_entropy_loss in test-grad0
* add conditional compilation of using F16 exp in flash attention
uncomment `// #define GGML_FLASH_ATTN_EXP_FP16` to enable usage of f16 exp in flash attention
* tighten abs error bounds for flash_attn in test-grad0
* tighten abs error bounds for sqrt in test-grad0
* remove out-commented vectorized code of opt_adam
the vectorized code might be bit faster for low number of parameters, but it had a big memory usage overhead
* ggml : update ggml_rms_norm_back with configurable eps
* llama training : fix ggml_rms_norm_back calls to pass configurable eps
* remove trailing whitespace
* add train function using automatic gradient checkpointing backward pass and allocator
* in train function replace add_inplace by regular add
because using add_inplace seems to result in different gradients
* don't use allocate hash_map on context
because the context has no_alloc=True when using memory allocator resulting in NULL data pointers
* correctly clone reshape and permute operations by also cloning tensor->nb values
* fix variable name and add missing type cast
* terminate recursive tensor cloning when reaching tensor without src tensors
* correctly clone view tensors by setting data pointers
without this the checkpointing would only work when being used together with memory allocator
* fix variable names
* swap arguments to commutative ops to be the same as in `forward_batch_wo_cache_flash_attn`
* add input tensors as checkpoints
so that recursive tensor cloning of gradient checkpointing terminates on input tensors
* fix variable name and add missing boolean negation
* make sure some tensors are not reallocated by inserting new temporary nodes depending on them:
output and parameter gradient tensors need to be available at the end of the graph execution
parameter gradient tensors also need to be available before the graph execution because they are set to zero before each optimizer iteration
checkpoint tensors are allocated all together to reduce memory allocator fragmentation
afterwards, in addition to the temporary nodes, we also need to reset the temporary leafs
* fix ASSERT to work with zero layers
* add training options whether to use allocator and/or unified training function
* integrate unified training function which may use memory allocator
the unified training function also supports arguments whether to use flash attention and/or gradient checkpointing
* format name of cloned tensors with " (clone)" suffix
* set names for tensors in unified train function for easier debugging
* allocate graph on context using ggml_new_graph
* remove handwritten training functions
* remove unused training parameters "use_scratch" and "use_unified"
* remove trailing whitespace
* remove unused train params: mem_compute1_gb & mem_compute2_gb
mem_compute_gb is used for compute when automatic memory allocator is not enabled, otherwise it can be very small to only hold the tensor definitions
mem_compute0_gb is used for automatic memory allocator (as long as measurement of max required size is not implemented)
* remove unused forward_batch function
* add debug asserts in ggml_allocr_alloc to some common pitfalls when using this function directly
* only use ggml_allocr_alloc when tensor has NULL data and is no view
* fix test when to create temporary backward graph
temporary backward graph is only necessary when using checkpointing
* fix memory "leak" in optimizers
each iteration a new cplan with new memory for work data was allocated.
now cplan creation only happens at the start of optimization, with each iteration reusing the cplan and its work data.
* reverse order of for loop in ggml_build_backward_expand to save memory when using gradient checkpointing and allocator
with this loop order gradient checkpointing with allocator on 16 layer model saves 13% memory; 2 layer memory it saves 2% memory.
the computation results are the same
* add missing lctx argument to get_example_targets_batch
* implement llama model file saving using gguf
checkpoint loading and saving disabled, to be replaced by loading and saving via gguf
* implement loading/saving of checkpointing files using GGUF
* bug fixes
* add checkpoint file version for future compatibility
* update readme with gguf filenames
* save & load opt->just_initialized value
* add first draft for checkpoint conversion script
* add gguf arch and ftype
* save opt parameter counter as uint64
* add gguf key and tensor names for optimizer and training
* add layer_norm_rms_eps to checkpoint convert script
* use same GGUF_GET_KEY macro as in llama.cpp
* use norm_rms_eps, and rope parameters and command line options to set them
* fix memory corruption bug in gguf
ctx->kv and ctx->infos was reallocated using not-aligned realloc, but freed with aligned free.
to fix this a GGML_ALIGNED_REALLOC was added, but there is no posix_memalign_realloc function.
so on non-windows and non-mingw32 platforms we fall back to aligned malloc, followed by copying
and freeing the old data.
* add gguf example cmake file
* bug fixes in tokenize_file
* bug fixes in load_llama_model_gguf
* bug fix: init model when no checkpoint was loaded
* bug fix in read_tensor_by_name
* bug fix in load_opt_context_gguf
* avoid printing lots of spaced on the unusual case that loss gets nan
* set name of tensors with empty name from what was read from gguf
* remove trailing whitespace
* print data checksums before saving and after loading to verify correctness
* bug fixes for convert-train-checkpoint-to-gguf
* temporarily add code to write old checkpoint files
used to verify that old checkpoint files are correctly converted to gguf
* bug fixes for convert-train-checkpoint-to-gguf.py loading checkpoints with opt_version=0
* remove code used to verify correctness of checkpoint file conversion
* remove trailing whitespace
* remove prediction related code
use main for prediction, it is better optimized
* update train-text-from-scratch README.md
* fix non-windows GGML_ALIGNED_REALLOC
* add missing blank line at end of file
* remove GGML_ALIGNED_REALLOC and use normal malloc/realloc/free for gguf ctx->kv & ctx->infos
* train : fix compile warnings
---------
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
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# include <cinttypes>
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# include <codecvt>
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# if defined(__APPLE__) && defined(__MACH__)
# include <sys/types.h>
# include <sys/sysctl.h>
# endif
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# if defined(_WIN32)
# define WIN32_LEAN_AND_MEAN
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# ifndef NOMINMAX
# define NOMINMAX
# endif
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# include <locale>
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# include <windows.h>
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# include <fcntl.h>
# include <io.h>
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# else
# include <sys/ioctl.h>
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# include <sys/stat.h>
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# include <unistd.h>
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# endif
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# if defined(LLAMA_USE_CURL)
# include <curl/curl.h>
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# include <curl/easy.h>
# include <thread>
# include <future>
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# endif
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# if defined(_MSC_VER)
# pragma warning(disable: 4244 4267) // possible loss of data
# endif
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# if (defined(GGML_USE_CUDA) || defined(GGML_USE_SYCL))
# define GGML_USE_CUDA_SYCL
ggml : add unified SYCL backend for Intel GPUs (#2690)
* first update for migration
* update init_cublas
* add debug functio, commit all help code
* step 1
* step 2
* step3 add fp16, slower 31->28
* add GGML_LIST_DEVICE function
* step 5 format device and print
* step6, enhance error check, remove CUDA macro, enhance device id to fix none-zero id issue
* support main device is non-zero
* step7 add debug for code path, rm log
* step 8, rename all macro & func from cuda by sycl
* fix error of select non-zero device, format device list
* ren ggml-sycl.hpp -> ggml-sycl.h
* clear CMAKE to rm unused lib and options
* correct queue: rm dtct:get_queue
* add print tensor function to debug
* fix error: wrong result in 658746bb26702e50f2c59c0e4ada8e9da6010481
* summary dpct definition in one header file to replace folder:dpct
* refactor device log
* mv dpct definition from folder dpct to ggml-sycl.h
* update readme, refactor build script
* fix build with sycl
* set nthread=1 when sycl, increase performance
* add run script, comment debug code
* add ls-sycl-device tool
* add ls-sycl-device, rm unused files
* rm rear space
* dos2unix
* Update README_sycl.md
* fix return type
* remove sycl version from include path
* restore rm code to fix hang issue
* add syc and link for sycl readme
* rm original sycl code before refactor
* fix code err
* add know issue for pvc hang issue
* enable SYCL_F16 support
* align pr4766
* check for sycl blas, better performance
* cleanup 1
* remove extra endif
* add build&run script, clean CMakefile, update guide by review comments
* rename macro to intel hardware
* editor config format
* format fixes
* format fixes
* editor format fix
* Remove unused headers
* skip build sycl tool for other code path
* replace tab by space
* fix blas matmul function
* fix mac build
* restore hip dependency
* fix conflict
* ren as review comments
* mv internal function to .cpp file
* export funciton print_sycl_devices(), mv class dpct definition to source file
* update CI/action for sycl code, fix CI error of repeat/dup
* fix action ID format issue
* rm unused strategy
* enable llama_f16 in ci
* fix conflict
* fix build break on MacOS, due to CI of MacOS depend on external ggml, instead of internal ggml
* fix ci cases for unsupported data type
* revert unrelated changed in cuda cmake
remove useless nommq
fix typo of GGML_USE_CLBLAS_SYCL
* revert hip cmake changes
* fix indent
* add prefix in func name
* revert no mmq
* rm cpu blas duplicate
* fix no_new_line
* fix src1->type==F16 bug.
* pass batch offset for F16 src1
* fix batch error
* fix wrong code
* revert sycl checking in test-sampling
* pass void as arguments of ggml_backend_sycl_print_sycl_devices
* remove extra blank line in test-sampling
* revert setting n_threads in sycl
* implement std::isinf for icpx with fast math.
* Update ci/run.sh
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* Update examples/sycl/run-llama2.sh
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* Update examples/sycl/run-llama2.sh
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* Update CMakeLists.txt
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* Update CMakeLists.txt
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* Update CMakeLists.txt
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* Update CMakeLists.txt
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* add copyright and MIT license declare
* update the cmd example
---------
Co-authored-by: jianyuzh <jianyu.zhang@intel.com>
Co-authored-by: luoyu-intel <yu.luo@intel.com>
Co-authored-by: Meng, Hengyu <hengyu.meng@intel.com>
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
2024-01-28 15:56:23 +00:00
# endif
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# if (defined(GGML_USE_CUDA) || defined(GGML_USE_SYCL)) || defined(GGML_USE_VULKAN)
# define GGML_USE_CUDA_SYCL_VULKAN
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# endif
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# if defined(LLAMA_USE_CURL)
# ifdef __linux__
# include <linux/limits.h>
# elif defined(_WIN32)
# define PATH_MAX MAX_PATH
# else
# include <sys/syslimits.h>
# endif
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# define LLAMA_CURL_MAX_URL_LENGTH 2084 // Maximum URL Length in Chrome: 2083
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# endif // LLAMA_USE_CURL
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using json = nlohmann : : ordered_json ;
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int32_t get_num_physical_cores ( ) {
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# ifdef __linux__
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// enumerate the set of thread siblings, num entries is num cores
std : : unordered_set < std : : string > siblings ;
for ( uint32_t cpu = 0 ; cpu < UINT32_MAX ; + + cpu ) {
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std : : ifstream thread_siblings ( " /sys/devices/system/cpu/cpu "
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+ std : : to_string ( cpu ) + " /topology/thread_siblings " ) ;
if ( ! thread_siblings . is_open ( ) ) {
break ; // no more cpus
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}
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std : : string line ;
if ( std : : getline ( thread_siblings , line ) ) {
siblings . insert ( line ) ;
}
}
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if ( ! siblings . empty ( ) ) {
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return static_cast < int32_t > ( siblings . size ( ) ) ;
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}
# elif defined(__APPLE__) && defined(__MACH__)
int32_t num_physical_cores ;
size_t len = sizeof ( num_physical_cores ) ;
int result = sysctlbyname ( " hw.perflevel0.physicalcpu " , & num_physical_cores , & len , NULL , 0 ) ;
if ( result = = 0 ) {
return num_physical_cores ;
}
result = sysctlbyname ( " hw.physicalcpu " , & num_physical_cores , & len , NULL , 0 ) ;
if ( result = = 0 ) {
return num_physical_cores ;
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}
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# elif defined(_WIN32)
//TODO: Implement
# endif
unsigned int n_threads = std : : thread : : hardware_concurrency ( ) ;
return n_threads > 0 ? ( n_threads < = 4 ? n_threads : n_threads / 2 ) : 4 ;
}
2023-03-17 17:47:35 +00:00
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# if defined(__x86_64__) && defined(__linux__) && !defined(__ANDROID__)
ggml : add llamafile sgemm (#6414)
This change upstreams llamafile's cpu matrix multiplication kernels
which improve image and prompt evaluation speed. For starters, Q4_0
and Q8_0 weights should go ~40% faster on CPU. The biggest benefits
are with data types like f16 / f32, which process prompts 2x faster
thus making them faster than quantized data types for prompt evals.
This change also introduces bona fide AVX512 support since tinyBLAS
is able to exploit the larger register file. For example, on my CPU
llama.cpp llava-cli processes an image prompt at 305 tokens/second,
using the Q4_K and Q4_0 types, which has always been faster than if
we used f16 LLaVA weights, which at HEAD go 188 tokens/second. With
this change, f16 LLaVA performance leap frogs to 464 tokens/second.
On Intel Core i9-14900K this change improves F16 prompt perf by 5x.
For example, using llama.cpp at HEAD with Mistral 7b f16 to process
a 215 token prompt will go 13 tok/sec. This change has fixes making
it go 52 tok/sec. It's mostly thanks to my vectorized outer product
kernels but also because I added support for correctly counting the
number of cores on Alderlake, so the default thread count discounts
Intel's new efficiency cores. Only Linux right now can count cores.
This work was sponsored by Mozilla who's given permission to change
the license of this code from Apache 2.0 to MIT. To read more about
what's improved, and how it works, see: https://justine.lol/matmul/
2024-04-16 18:55:30 +00:00
# include <pthread.h>
static void cpuid ( unsigned leaf , unsigned subleaf ,
unsigned * eax , unsigned * ebx , unsigned * ecx , unsigned * edx ) {
__asm__ ( " movq \t %%rbx,%%rsi \n \t "
" cpuid \n \t "
" xchgq \t %%rbx,%%rsi "
: " =a " ( * eax ) , " =S " ( * ebx ) , " =c " ( * ecx ) , " =d " ( * edx )
: " 0 " ( leaf ) , " 2 " ( subleaf ) ) ;
}
static int pin_cpu ( int cpu ) {
cpu_set_t mask ;
CPU_ZERO ( & mask ) ;
CPU_SET ( cpu , & mask ) ;
return pthread_setaffinity_np ( pthread_self ( ) , sizeof ( mask ) , & mask ) ;
}
static bool is_hybrid_cpu ( void ) {
unsigned eax , ebx , ecx , edx ;
cpuid ( 7 , 0 , & eax , & ebx , & ecx , & edx ) ;
return ! ! ( edx & ( 1u < < 15 ) ) ;
}
static bool is_running_on_efficiency_core ( void ) {
unsigned eax , ebx , ecx , edx ;
cpuid ( 0x1a , 0 , & eax , & ebx , & ecx , & edx ) ;
int intel_atom = 0x20 ;
int core_type = ( eax & 0xff000000u ) > > 24 ;
return core_type = = intel_atom ;
}
static int count_math_cpus ( int cpu_count ) {
int result = 0 ;
for ( int cpu = 0 ; cpu < cpu_count ; + + cpu ) {
if ( pin_cpu ( cpu ) ) {
return - 1 ;
}
if ( is_running_on_efficiency_core ( ) ) {
continue ; // efficiency cores harm lockstep threading
}
+ + cpu ; // hyperthreading isn't useful for linear algebra
+ + result ;
}
return result ;
}
# endif // __x86_64__ && __linux__
/**
* Returns number of CPUs on system that are useful for math .
*/
int get_math_cpu_count ( ) {
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# if defined(__x86_64__) && defined(__linux__) && !defined(__ANDROID__)
ggml : add llamafile sgemm (#6414)
This change upstreams llamafile's cpu matrix multiplication kernels
which improve image and prompt evaluation speed. For starters, Q4_0
and Q8_0 weights should go ~40% faster on CPU. The biggest benefits
are with data types like f16 / f32, which process prompts 2x faster
thus making them faster than quantized data types for prompt evals.
This change also introduces bona fide AVX512 support since tinyBLAS
is able to exploit the larger register file. For example, on my CPU
llama.cpp llava-cli processes an image prompt at 305 tokens/second,
using the Q4_K and Q4_0 types, which has always been faster than if
we used f16 LLaVA weights, which at HEAD go 188 tokens/second. With
this change, f16 LLaVA performance leap frogs to 464 tokens/second.
On Intel Core i9-14900K this change improves F16 prompt perf by 5x.
For example, using llama.cpp at HEAD with Mistral 7b f16 to process
a 215 token prompt will go 13 tok/sec. This change has fixes making
it go 52 tok/sec. It's mostly thanks to my vectorized outer product
kernels but also because I added support for correctly counting the
number of cores on Alderlake, so the default thread count discounts
Intel's new efficiency cores. Only Linux right now can count cores.
This work was sponsored by Mozilla who's given permission to change
the license of this code from Apache 2.0 to MIT. To read more about
what's improved, and how it works, see: https://justine.lol/matmul/
2024-04-16 18:55:30 +00:00
int cpu_count = sysconf ( _SC_NPROCESSORS_ONLN ) ;
if ( cpu_count < 1 ) {
return get_num_physical_cores ( ) ;
}
if ( is_hybrid_cpu ( ) ) {
cpu_set_t affinity ;
if ( ! pthread_getaffinity_np ( pthread_self ( ) , sizeof ( affinity ) , & affinity ) ) {
int result = count_math_cpus ( cpu_count ) ;
pthread_setaffinity_np ( pthread_self ( ) , sizeof ( affinity ) , & affinity ) ;
if ( result > 0 ) {
return result ;
}
}
}
# endif
return get_num_physical_cores ( ) ;
}
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void process_escapes ( std : : string & input ) {
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std : : size_t input_len = input . length ( ) ;
std : : size_t output_idx = 0 ;
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for ( std : : size_t input_idx = 0 ; input_idx < input_len ; + + input_idx ) {
if ( input [ input_idx ] = = ' \\ ' & & input_idx + 1 < input_len ) {
switch ( input [ + + input_idx ] ) {
case ' n ' : input [ output_idx + + ] = ' \n ' ; break ;
case ' r ' : input [ output_idx + + ] = ' \r ' ; break ;
case ' t ' : input [ output_idx + + ] = ' \t ' ; break ;
case ' \' ' : input [ output_idx + + ] = ' \' ' ; break ;
case ' \" ' : input [ output_idx + + ] = ' \" ' ; break ;
case ' \\ ' : input [ output_idx + + ] = ' \\ ' ; break ;
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case ' x ' :
// Handle \x12, etc
if ( input_idx + 2 < input_len ) {
const char x [ 3 ] = { input [ input_idx + 1 ] , input [ input_idx + 2 ] , 0 } ;
char * err_p = nullptr ;
const long val = std : : strtol ( x , & err_p , 16 ) ;
if ( err_p = = x + 2 ) {
input_idx + = 2 ;
input [ output_idx + + ] = char ( val ) ;
break ;
}
}
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// fall through
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default : input [ output_idx + + ] = ' \\ ' ;
input [ output_idx + + ] = input [ input_idx ] ; break ;
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}
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} else {
input [ output_idx + + ] = input [ input_idx ] ;
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}
}
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input . resize ( output_idx ) ;
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}
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bool gpt_params_parse ( int argc , char * * argv , gpt_params & params ) {
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bool result = true ;
try {
if ( ! gpt_params_parse_ex ( argc , argv , params ) ) {
gpt_print_usage ( argc , argv , gpt_params ( ) ) ;
exit ( 0 ) ;
}
}
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catch ( const std : : invalid_argument & ex ) {
fprintf ( stderr , " %s \n " , ex . what ( ) ) ;
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gpt_print_usage ( argc , argv , gpt_params ( ) ) ;
exit ( 1 ) ;
}
return result ;
}
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bool parse_kv_override ( const char * data , std : : vector < llama_model_kv_override > & overrides ) {
const char * sep = strchr ( data , ' = ' ) ;
if ( sep = = nullptr | | sep - data > = 128 ) {
fprintf ( stderr , " %s: malformed KV override '%s' \n " , __func__ , data ) ;
return false ;
}
llama_model_kv_override kvo ;
std : : strncpy ( kvo . key , data , sep - data ) ;
kvo . key [ sep - data ] = 0 ;
sep + + ;
if ( strncmp ( sep , " int: " , 4 ) = = 0 ) {
sep + = 4 ;
kvo . tag = LLAMA_KV_OVERRIDE_TYPE_INT ;
kvo . val_i64 = std : : atol ( sep ) ;
} else if ( strncmp ( sep , " float: " , 6 ) = = 0 ) {
sep + = 6 ;
kvo . tag = LLAMA_KV_OVERRIDE_TYPE_FLOAT ;
kvo . val_f64 = std : : atof ( sep ) ;
} else if ( strncmp ( sep , " bool: " , 5 ) = = 0 ) {
sep + = 5 ;
kvo . tag = LLAMA_KV_OVERRIDE_TYPE_BOOL ;
if ( std : : strcmp ( sep , " true " ) = = 0 ) {
kvo . val_bool = true ;
} else if ( std : : strcmp ( sep , " false " ) = = 0 ) {
kvo . val_bool = false ;
} else {
fprintf ( stderr , " %s: invalid boolean value for KV override '%s' \n " , __func__ , data ) ;
return false ;
}
} else if ( strncmp ( sep , " str: " , 4 ) = = 0 ) {
sep + = 4 ;
kvo . tag = LLAMA_KV_OVERRIDE_TYPE_STR ;
if ( strlen ( sep ) > 127 ) {
fprintf ( stderr , " %s: malformed KV override '%s', value cannot exceed 127 chars \n " , __func__ , data ) ;
return false ;
}
strncpy ( kvo . val_str , sep , 127 ) ;
kvo . val_str [ 127 ] = ' \0 ' ;
} else {
fprintf ( stderr , " %s: invalid type for KV override '%s' \n " , __func__ , data ) ;
return false ;
}
overrides . emplace_back ( std : : move ( kvo ) ) ;
return true ;
}
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bool gpt_params_find_arg ( int argc , char * * argv , const std : : string & arg , gpt_params & params , int & i , bool & invalid_param ) {
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llama_sampling_params & sparams = params . sparams ;
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if ( arg = = " -s " | | arg = = " --seed " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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// This is temporary, in the future the samplign state will be moved fully to llama_sampling_context.
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params . seed = std : : stoul ( argv [ i ] ) ;
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sparams . seed = std : : stoul ( argv [ i ] ) ;
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return true ;
}
if ( arg = = " -t " | | arg = = " --threads " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . n_threads = std : : stoi ( argv [ i ] ) ;
if ( params . n_threads < = 0 ) {
params . n_threads = std : : thread : : hardware_concurrency ( ) ;
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}
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return true ;
}
if ( arg = = " -tb " | | arg = = " --threads-batch " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . n_threads_batch = std : : stoi ( argv [ i ] ) ;
if ( params . n_threads_batch < = 0 ) {
params . n_threads_batch = std : : thread : : hardware_concurrency ( ) ;
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}
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return true ;
}
if ( arg = = " -td " | | arg = = " --threads-draft " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . n_threads_draft = std : : stoi ( argv [ i ] ) ;
if ( params . n_threads_draft < = 0 ) {
params . n_threads_draft = std : : thread : : hardware_concurrency ( ) ;
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}
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return true ;
}
if ( arg = = " -tbd " | | arg = = " --threads-batch-draft " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . n_threads_batch_draft = std : : stoi ( argv [ i ] ) ;
if ( params . n_threads_batch_draft < = 0 ) {
params . n_threads_batch_draft = std : : thread : : hardware_concurrency ( ) ;
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}
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return true ;
}
if ( arg = = " -p " | | arg = = " --prompt " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . prompt = argv [ i ] ;
return true ;
}
if ( arg = = " -e " | | arg = = " --escape " ) {
params . escape = true ;
return true ;
}
if ( arg = = " --prompt-cache " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . path_prompt_cache = argv [ i ] ;
return true ;
}
if ( arg = = " --prompt-cache-all " ) {
params . prompt_cache_all = true ;
return true ;
}
if ( arg = = " --prompt-cache-ro " ) {
params . prompt_cache_ro = true ;
return true ;
}
if ( arg = = " -bf " | | arg = = " --binary-file " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
std : : ifstream file ( argv [ i ] , std : : ios : : binary ) ;
if ( ! file ) {
fprintf ( stderr , " error: failed to open file '%s' \n " , argv [ i ] ) ;
invalid_param = true ;
return true ;
}
// store the external file name in params
params . prompt_file = argv [ i ] ;
std : : ostringstream ss ;
ss < < file . rdbuf ( ) ;
params . prompt = ss . str ( ) ;
fprintf ( stderr , " Read %zu bytes from binary file %s \n " , params . prompt . size ( ) , argv [ i ] ) ;
return true ;
}
if ( arg = = " -f " | | arg = = " --file " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
std : : ifstream file ( argv [ i ] ) ;
if ( ! file ) {
fprintf ( stderr , " error: failed to open file '%s' \n " , argv [ i ] ) ;
invalid_param = true ;
return true ;
}
// store the external file name in params
params . prompt_file = argv [ i ] ;
std : : copy ( std : : istreambuf_iterator < char > ( file ) , std : : istreambuf_iterator < char > ( ) , back_inserter ( params . prompt ) ) ;
if ( ! params . prompt . empty ( ) & & params . prompt . back ( ) = = ' \n ' ) {
params . prompt . pop_back ( ) ;
}
return true ;
}
if ( arg = = " -n " | | arg = = " --n-predict " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . n_predict = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --top-k " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . top_k = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " -c " | | arg = = " --ctx-size " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . n_ctx = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --grp-attn-n " | | arg = = " -gan " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . grp_attn_n = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --grp-attn-w " | | arg = = " -gaw " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . grp_attn_w = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --rope-freq-base " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . rope_freq_base = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --rope-freq-scale " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . rope_freq_scale = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --rope-scaling " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
std : : string value ( argv [ i ] ) ;
/**/ if ( value = = " none " ) { params . rope_scaling_type = LLAMA_ROPE_SCALING_TYPE_NONE ; }
else if ( value = = " linear " ) { params . rope_scaling_type = LLAMA_ROPE_SCALING_TYPE_LINEAR ; }
else if ( value = = " yarn " ) { params . rope_scaling_type = LLAMA_ROPE_SCALING_TYPE_YARN ; }
else { invalid_param = true ; }
return true ;
}
if ( arg = = " --rope-scale " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . rope_freq_scale = 1.0f / std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --yarn-orig-ctx " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . yarn_orig_ctx = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --yarn-ext-factor " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . yarn_ext_factor = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --yarn-attn-factor " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . yarn_attn_factor = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --yarn-beta-fast " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . yarn_beta_fast = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --yarn-beta-slow " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . yarn_beta_slow = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --pooling " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
std : : string value ( argv [ i ] ) ;
/**/ if ( value = = " none " ) { params . pooling_type = LLAMA_POOLING_TYPE_NONE ; }
else if ( value = = " mean " ) { params . pooling_type = LLAMA_POOLING_TYPE_MEAN ; }
else if ( value = = " cls " ) { params . pooling_type = LLAMA_POOLING_TYPE_CLS ; }
else { invalid_param = true ; }
return true ;
}
if ( arg = = " --defrag-thold " | | arg = = " -dt " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . defrag_thold = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --samplers " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
const auto sampler_names = string_split ( argv [ i ] , ' ; ' ) ;
sparams . samplers_sequence = sampler_types_from_names ( sampler_names , true ) ;
return true ;
}
if ( arg = = " --sampling-seq " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . samplers_sequence = sampler_types_from_chars ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --top-p " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . top_p = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --min-p " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . min_p = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --temp " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
sparams . temp = std : : stof ( argv [ i ] ) ;
sparams . temp = std : : max ( sparams . temp , 0.0f ) ;
return true ;
}
if ( arg = = " --tfs " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . tfs_z = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --typical " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . typical_p = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --repeat-last-n " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
sparams . penalty_last_n = std : : stoi ( argv [ i ] ) ;
sparams . n_prev = std : : max ( sparams . n_prev , sparams . penalty_last_n ) ;
return true ;
}
if ( arg = = " --repeat-penalty " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . penalty_repeat = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --frequency-penalty " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . penalty_freq = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --presence-penalty " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . penalty_present = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --dynatemp-range " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . dynatemp_range = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --dynatemp-exp " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . dynatemp_exponent = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --mirostat " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . mirostat = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --mirostat-lr " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . mirostat_eta = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --mirostat-ent " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . mirostat_tau = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --cfg-negative-prompt " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . cfg_negative_prompt = argv [ i ] ;
return true ;
}
if ( arg = = " --cfg-negative-prompt-file " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
std : : ifstream file ( argv [ i ] ) ;
if ( ! file ) {
fprintf ( stderr , " error: failed to open file '%s' \n " , argv [ i ] ) ;
invalid_param = true ;
return true ;
}
std : : copy ( std : : istreambuf_iterator < char > ( file ) , std : : istreambuf_iterator < char > ( ) , back_inserter ( sparams . cfg_negative_prompt ) ) ;
if ( ! sparams . cfg_negative_prompt . empty ( ) & & sparams . cfg_negative_prompt . back ( ) = = ' \n ' ) {
sparams . cfg_negative_prompt . pop_back ( ) ;
}
return true ;
}
if ( arg = = " --cfg-scale " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . cfg_scale = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " -b " | | arg = = " --batch-size " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . n_batch = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " -ub " | | arg = = " --ubatch-size " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . n_ubatch = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --keep " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . n_keep = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --draft " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . n_draft = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --chunks " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . n_chunks = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " -np " | | arg = = " --parallel " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . n_parallel = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " -ns " | | arg = = " --sequences " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . n_sequences = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --p-split " | | arg = = " -ps " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . p_split = std : : stof ( argv [ i ] ) ;
return true ;
}
if ( arg = = " -m " | | arg = = " --model " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . model = argv [ i ] ;
return true ;
}
2024-03-22 13:33:38 +00:00
if ( arg = = " -md " | | arg = = " --model-draft " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
params . model_draft = argv [ i ] ;
return true ;
}
if ( arg = = " -a " | | arg = = " --alias " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
params . model_alias = argv [ i ] ;
return true ;
}
2024-03-18 08:27:44 +00:00
if ( arg = = " -mu " | | arg = = " --model-url " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . model_url = argv [ i ] ;
return true ;
}
2024-03-22 13:33:38 +00:00
if ( arg = = " -hfr " | | arg = = " --hf-repo " ) {
2024-03-18 08:27:44 +00:00
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-22 13:33:38 +00:00
params . hf_repo = argv [ i ] ;
2024-03-18 08:27:44 +00:00
return true ;
}
2024-03-22 13:33:38 +00:00
if ( arg = = " -hff " | | arg = = " --hf-file " ) {
2024-03-18 08:27:44 +00:00
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-22 13:33:38 +00:00
params . hf_file = argv [ i ] ;
2024-03-18 08:27:44 +00:00
return true ;
}
if ( arg = = " --lora " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
params . lora_adapter . emplace_back ( argv [ i ] , 1.0f ) ;
params . use_mmap = false ;
return true ;
}
if ( arg = = " --lora-scaled " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
const char * lora_adapter = argv [ i ] ;
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
params . lora_adapter . emplace_back ( lora_adapter , std : : stof ( argv [ i ] ) ) ;
params . use_mmap = false ;
return true ;
}
if ( arg = = " --lora-base " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . lora_base = argv [ i ] ;
return true ;
}
if ( arg = = " --control-vector " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . control_vectors . push_back ( { 1.0f , argv [ i ] , } ) ;
return true ;
}
if ( arg = = " --control-vector-scaled " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
const char * fname = argv [ i ] ;
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
params . control_vectors . push_back ( { std : : stof ( argv [ i ] ) , fname , } ) ;
return true ;
}
if ( arg = = " --control-vector-layer-range " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
params . control_vector_layer_start = std : : stoi ( argv [ i ] ) ;
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
params . control_vector_layer_end = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --mmproj " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . mmproj = argv [ i ] ;
return true ;
}
if ( arg = = " --image " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-04-29 14:34:24 +00:00
params . image . emplace_back ( argv [ i ] ) ;
2024-03-18 08:27:44 +00:00
return true ;
}
if ( arg = = " -i " | | arg = = " --interactive " ) {
params . interactive = true ;
return true ;
}
if ( arg = = " --embedding " ) {
params . embedding = true ;
return true ;
}
if ( arg = = " --interactive-first " ) {
params . interactive_first = true ;
return true ;
}
if ( arg = = " -ins " | | arg = = " --instruct " ) {
params . instruct = true ;
return true ;
}
if ( arg = = " -cml " | | arg = = " --chatml " ) {
params . chatml = true ;
return true ;
}
if ( arg = = " --infill " ) {
params . infill = true ;
return true ;
}
if ( arg = = " -dkvc " | | arg = = " --dump-kv-cache " ) {
params . dump_kv_cache = true ;
return true ;
}
if ( arg = = " -nkvo " | | arg = = " --no-kv-offload " ) {
params . no_kv_offload = true ;
return true ;
}
if ( arg = = " -ctk " | | arg = = " --cache-type-k " ) {
params . cache_type_k = argv [ + + i ] ;
return true ;
}
if ( arg = = " -ctv " | | arg = = " --cache-type-v " ) {
params . cache_type_v = argv [ + + i ] ;
return true ;
}
if ( arg = = " --multiline-input " ) {
params . multiline_input = true ;
return true ;
}
if ( arg = = " --simple-io " ) {
params . simple_io = true ;
return true ;
}
if ( arg = = " -cb " | | arg = = " --cont-batching " ) {
params . cont_batching = true ;
return true ;
}
ggml : add Flash Attention (#5021)
* ggml : add ggml_flash_attn_ext API
* ggml : fix GQA support in ggml_flash_attn_ext
* ggml : online attention (CPU)
* metal : initial implementation
* metal : f16 precision
* metal : reduce branches
* metal : specialize for head size
* wip : 8 rows per simd group
* wip : 4 rows per simd group
* wip : template for rows per warp
* metal : parallelize across KV size
* metal : parallel reduce across heads
* metal : efficient flash_attn_f16 implementation
* metal : avoid redundant loads of the attention
* metal : scale and mask in matrix form
* metal : fix comment
* llama : avoid ggml_cast, use F32 query
* metal : add parallel reduce version (disabled)
* metal : move output into local memory + optimize
- the result from each simdgroup now stays in the registers
- significantly reduced SRAM usage
- more efficient skipping of -INF blocks
- avoid simdgroup barrier in hot loop
- add comments
* metal : add tests, fix scaling, support C > 32
* metal : improve precision
* ggml : fix f16 mad
* metal : minor
* metal : support Q > 8
* tests : add ATTN tests
* metal : disable buffer allocation logs
* tests : more
* metal : faster inner loop for C == 32
* metal : fix array initialization
* tests : ifdef
* ggml : switch to padded F16 mask for ggml_soft_max, ggml_flash_attn_ext
* ggml : fix ggml_soft_max mask requirement
* cuda : fix soft_max to use correct mask size
* cuda : add flash_attn kernel (wip)
* metal : optimize softmax for C > 32
* metal : optimize softmax
* tests : minor fix
* cuda : avoid zeroing fragments
* tests : update dims
* cuda : fix __hisinf() result check
* cuda : avoid warp_reduce for smax
* cuda : use int instead of int64_t
Noticeably improves performance (thanks to Johannes)
* cuda : make loops use the same loop values
Thanks Johannes again for the tip
* cuda : unroll some of the loops
* cuda : avoid __hisinf branches
* cuda : use half2 in softmax
* cuda : switch to 1 warp for bs > 16
* cuda : speed-up reduce part of the kernel
* cuda : unroll Q*K^T loop
* cuda : fix -INF block check
* cuda : simplify softmax
* cuda : fix matrix names
* cuda : minor
* llama : adapt to F16 KQ_pos
* llama : adapt new models to F16 KQ_mask
* ggml : fix F16 store (ARM NEON)
* llama : fix type of KQ_mask and KQ_pos
* ggml : fix CPU soft_max
* tests : add hs=256
* cuda : fix build
* metal : improve perf via smaller int registers
* cuda : adapt soft_max to F16 mask and pos
* CUDA: faster FlashAttention, kernel for bs == 1
* 16 cols for Phi-2
* no vec for hs, no hs==256 ncols==32 for Volta
* adjust kernel selection logic
* 4 warps, 256 stride for all D
* no ncols == 64
* Multiple parallel blocks for batch size 1
* fix compile warnings
* fix excessive KQ_b loads
* fix cmake build
* fix KV cache padding, NaN from INFINITY (#6438)
* llama : flash_attn cparam + fix defrag
* server: support flash_attn param
* server: bench: enable flash_attn param
* CUDA: refactor host code, dyn. par. blocks
* fix flash_attn_vec_f16 race condition
* flush softmax exp below threshold to 0
* store temp KQ in registers
* Calculate KQ as FP32 if KQV has GGML_PREC_F32
* Add __hgt2_mask implementation for CUDA 11
* fix KQ FP32 precision fpr parallel_blocks > 1
* llama-bench : add -fa,--flash-attn arg
* metal : add BS=1 kernel for flash attention (#6508)
* metal : add BS=1 kernel for flash attention (wip)
* metal : support more than 1 warps
* metal : opts
* metal : opt
* metal : switch to parallel reduce
* metal : reduce registers
* metal : simplify
* metal : initial FA vec kernel
* metal : use F32 attention accumulators
* batched-bench : add fattn arg
* llama : simplify llama_build_kv_store
ggml-ci
* llama : adapt build_olmo to changes
* ggml : fix arm fp16 store on windows
* metal : clean-up
* metal : clean-up kernel code
* metal : minor
* tests : remove benchmarks
ggml-ci
* ggml : fix avx512 const correctness
ggml-ci
* ggml : fix soft_max with bias on CPU
ggml-ci
* common : print --flash-attn in help
* ggml : fix num dimensions in ggml_flash_attn_ext
* llama : force disable flash attention for incompatible models
* ggml : ggml_soft_max support F16/F32 mask/pos
ggml-ci
* cuda : uint -> uint32_t
* cuda : "constexpr dim3" -> "const dim3"
ggml-ci
* cuda : try to fix __hgt2_mask
ggml-ci
* ggml : add TODO's for F16/F32 mask/pos support in other backends
* llama : replace bool need_kq_pos with use_alibi
* llama : prep ALiBi support for BERT models
ggml-ci
* llama : fix n_batch requirements
ggml-ci
* cont
* server : add help for --flash-attn arg
* llama : disable FA for AMD
* tests : remove TMP_ATTN_BENCH
ggml-ci
* llama : support save/load state with FA enabled
ggml-ci
* ci : add CUDA save-load-state tests
ggml-ci
* llama : llama_kv_cache_clear zeroes data + fix save-load seq
ggml-ci
* llama : fix copy-paste errors, add TODO
* llama : disallow incompatible states
* llama : update llama_state_get_size after v_trans field
* metal : remove tmp log
* llama : add static reminder for llama_state_get_size
* metal : fix max nsg
ggml-ci
* ci : fix arg order
ggml-ci
---------
Co-authored-by: Johannes Gäßler <johannesg@5d6.de>
Co-authored-by: Pierrick HYMBERT <pierrick.hymbert@gmail.com>
2024-04-30 09:16:08 +00:00
if ( arg = = " -fa " | | arg = = " --flash-attn " ) {
params . flash_attn = true ;
return true ;
}
2024-03-18 08:27:44 +00:00
if ( arg = = " --color " ) {
params . use_color = true ;
return true ;
}
if ( arg = = " --mlock " ) {
params . use_mlock = true ;
return true ;
}
if ( arg = = " --gpu-layers " | | arg = = " -ngl " | | arg = = " --n-gpu-layers " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . n_gpu_layers = std : : stoi ( argv [ i ] ) ;
if ( ! llama_supports_gpu_offload ( ) ) {
fprintf ( stderr , " warning: not compiled with GPU offload support, --n-gpu-layers option will be ignored \n " ) ;
fprintf ( stderr , " warning: see main README.md for information on enabling GPU BLAS support \n " ) ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
return true ;
}
if ( arg = = " --gpu-layers-draft " | | arg = = " -ngld " | | arg = = " --n-gpu-layers-draft " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . n_gpu_layers_draft = std : : stoi ( argv [ i ] ) ;
if ( ! llama_supports_gpu_offload ( ) ) {
fprintf ( stderr , " warning: not compiled with GPU offload support, --n-gpu-layers-draft option will be ignored \n " ) ;
fprintf ( stderr , " warning: see main README.md for information on enabling GPU BLAS support \n " ) ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
return true ;
}
if ( arg = = " --main-gpu " | | arg = = " -mg " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
params . main_gpu = std : : stoi ( argv [ i ] ) ;
2024-03-26 00:16:01 +00:00
# ifndef GGML_USE_CUDA_SYCL
fprintf ( stderr , " warning: llama.cpp was compiled without CUDA/SYCL. Setting the main GPU has no effect. \n " ) ;
# endif // GGML_USE_CUDA_SYCL
2024-03-18 08:27:44 +00:00
return true ;
}
if ( arg = = " --split-mode " | | arg = = " -sm " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
std : : string arg_next = argv [ i ] ;
if ( arg_next = = " none " ) {
params . split_mode = LLAMA_SPLIT_MODE_NONE ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
else if ( arg_next = = " layer " ) {
params . split_mode = LLAMA_SPLIT_MODE_LAYER ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
else if ( arg_next = = " row " ) {
# ifdef GGML_USE_SYCL
fprintf ( stderr , " warning: The split mode value:[row] is not supported by llama.cpp with SYCL. It's developing. \n Exit! \n " ) ;
exit ( 1 ) ;
# endif // GGML_USE_SYCL
params . split_mode = LLAMA_SPLIT_MODE_ROW ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
else {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-26 00:16:01 +00:00
# ifndef GGML_USE_CUDA_SYCL
fprintf ( stderr , " warning: llama.cpp was compiled without CUDA/SYCL. Setting the split mode has no effect. \n " ) ;
# endif // GGML_USE_CUDA_SYCL
2024-03-18 08:27:44 +00:00
return true ;
}
if ( arg = = " --tensor-split " | | arg = = " -ts " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
std : : string arg_next = argv [ i ] ;
ggml : add unified SYCL backend for Intel GPUs (#2690)
* first update for migration
* update init_cublas
* add debug functio, commit all help code
* step 1
* step 2
* step3 add fp16, slower 31->28
* add GGML_LIST_DEVICE function
* step 5 format device and print
* step6, enhance error check, remove CUDA macro, enhance device id to fix none-zero id issue
* support main device is non-zero
* step7 add debug for code path, rm log
* step 8, rename all macro & func from cuda by sycl
* fix error of select non-zero device, format device list
* ren ggml-sycl.hpp -> ggml-sycl.h
* clear CMAKE to rm unused lib and options
* correct queue: rm dtct:get_queue
* add print tensor function to debug
* fix error: wrong result in 658746bb26702e50f2c59c0e4ada8e9da6010481
* summary dpct definition in one header file to replace folder:dpct
* refactor device log
* mv dpct definition from folder dpct to ggml-sycl.h
* update readme, refactor build script
* fix build with sycl
* set nthread=1 when sycl, increase performance
* add run script, comment debug code
* add ls-sycl-device tool
* add ls-sycl-device, rm unused files
* rm rear space
* dos2unix
* Update README_sycl.md
* fix return type
* remove sycl version from include path
* restore rm code to fix hang issue
* add syc and link for sycl readme
* rm original sycl code before refactor
* fix code err
* add know issue for pvc hang issue
* enable SYCL_F16 support
* align pr4766
* check for sycl blas, better performance
* cleanup 1
* remove extra endif
* add build&run script, clean CMakefile, update guide by review comments
* rename macro to intel hardware
* editor config format
* format fixes
* format fixes
* editor format fix
* Remove unused headers
* skip build sycl tool for other code path
* replace tab by space
* fix blas matmul function
* fix mac build
* restore hip dependency
* fix conflict
* ren as review comments
* mv internal function to .cpp file
* export funciton print_sycl_devices(), mv class dpct definition to source file
* update CI/action for sycl code, fix CI error of repeat/dup
* fix action ID format issue
* rm unused strategy
* enable llama_f16 in ci
* fix conflict
* fix build break on MacOS, due to CI of MacOS depend on external ggml, instead of internal ggml
* fix ci cases for unsupported data type
* revert unrelated changed in cuda cmake
remove useless nommq
fix typo of GGML_USE_CLBLAS_SYCL
* revert hip cmake changes
* fix indent
* add prefix in func name
* revert no mmq
* rm cpu blas duplicate
* fix no_new_line
* fix src1->type==F16 bug.
* pass batch offset for F16 src1
* fix batch error
* fix wrong code
* revert sycl checking in test-sampling
* pass void as arguments of ggml_backend_sycl_print_sycl_devices
* remove extra blank line in test-sampling
* revert setting n_threads in sycl
* implement std::isinf for icpx with fast math.
* Update ci/run.sh
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* Update examples/sycl/run-llama2.sh
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* Update examples/sycl/run-llama2.sh
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* Update CMakeLists.txt
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* Update CMakeLists.txt
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* Update CMakeLists.txt
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* Update CMakeLists.txt
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
* add copyright and MIT license declare
* update the cmd example
---------
Co-authored-by: jianyuzh <jianyu.zhang@intel.com>
Co-authored-by: luoyu-intel <yu.luo@intel.com>
Co-authored-by: Meng, Hengyu <hengyu.meng@intel.com>
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
2024-01-28 15:56:23 +00:00
2024-03-18 08:27:44 +00:00
// split string by , and /
const std : : regex regex { R " ([,/]+) " } ;
std : : sregex_token_iterator it { arg_next . begin ( ) , arg_next . end ( ) , regex , - 1 } ;
std : : vector < std : : string > split_arg { it , { } } ;
if ( split_arg . size ( ) > = llama_max_devices ( ) ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
2024-03-18 08:27:44 +00:00
for ( size_t i = 0 ; i < llama_max_devices ( ) ; + + i ) {
if ( i < split_arg . size ( ) ) {
params . tensor_split [ i ] = std : : stof ( split_arg [ i ] ) ;
2024-01-12 19:07:38 +00:00
}
2024-03-18 08:27:44 +00:00
else {
params . tensor_split [ i ] = 0.0f ;
2023-06-06 19:33:23 +00:00
}
2024-03-18 08:27:44 +00:00
}
2024-03-26 00:16:01 +00:00
# ifndef GGML_USE_CUDA_SYCL_VULKAN
fprintf ( stderr , " warning: llama.cpp was compiled without CUDA/SYCL/Vulkan. Setting a tensor split has no effect. \n " ) ;
# endif // GGML_USE_CUDA_SYCL_VULKAN
2024-03-18 08:27:44 +00:00
return true ;
}
if ( arg = = " --no-mmap " ) {
params . use_mmap = false ;
return true ;
}
if ( arg = = " --numa " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
std : : string value ( argv [ i ] ) ;
/**/ if ( value = = " distribute " | | value = = " " ) { params . numa = GGML_NUMA_STRATEGY_DISTRIBUTE ; }
else if ( value = = " isolate " ) { params . numa = GGML_NUMA_STRATEGY_ISOLATE ; }
else if ( value = = " numactl " ) { params . numa = GGML_NUMA_STRATEGY_NUMACTL ; }
else { invalid_param = true ; }
return true ;
}
if ( arg = = " --verbose-prompt " ) {
params . verbose_prompt = true ;
return true ;
}
if ( arg = = " --no-display-prompt " ) {
params . display_prompt = false ;
return true ;
}
if ( arg = = " -r " | | arg = = " --reverse-prompt " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
2024-03-16 15:39:15 +00:00
}
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params . antiprompt . emplace_back ( argv [ i ] ) ;
return true ;
}
if ( arg = = " -ld " | | arg = = " --logdir " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . logdir = argv [ i ] ;
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if ( params . logdir . back ( ) ! = DIRECTORY_SEPARATOR ) {
params . logdir + = DIRECTORY_SEPARATOR ;
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}
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return true ;
}
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if ( arg = = " -lcs " | | arg = = " --lookup-cache-static " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
params . lookup_cache_static = argv [ i ] ;
return true ;
}
if ( arg = = " -lcd " | | arg = = " --lookup-cache-dynamic " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
params . lookup_cache_dynamic = argv [ i ] ;
return true ;
}
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if ( arg = = " --save-all-logits " | | arg = = " --kl-divergence-base " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . logits_file = argv [ i ] ;
return true ;
}
if ( arg = = " --perplexity " | | arg = = " --all-logits " ) {
params . logits_all = true ;
return true ;
}
if ( arg = = " --ppl-stride " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . ppl_stride = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " -ptc " | | arg = = " --print-token-count " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . n_print = std : : stoi ( argv [ i ] ) ;
return true ;
}
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if ( arg = = " --check-tensors " ) {
params . check_tensors = true ;
return true ;
}
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if ( arg = = " --ppl-output-type " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . ppl_output_type = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --hellaswag " ) {
params . hellaswag = true ;
return true ;
}
if ( arg = = " --hellaswag-tasks " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . hellaswag_tasks = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --winogrande " ) {
params . winogrande = true ;
return true ;
}
if ( arg = = " --winogrande-tasks " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . winogrande_tasks = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --multiple-choice " ) {
params . multiple_choice = true ;
return true ;
}
if ( arg = = " --multiple-choice-tasks " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . multiple_choice_tasks = std : : stoi ( argv [ i ] ) ;
return true ;
}
if ( arg = = " --kl-divergence " ) {
params . kl_divergence = true ;
return true ;
}
if ( arg = = " --ignore-eos " ) {
params . ignore_eos = true ;
return true ;
}
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if ( arg = = " --penalize-nl " ) {
sparams . penalize_nl = true ;
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return true ;
}
if ( arg = = " -l " | | arg = = " --logit-bias " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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std : : stringstream ss ( argv [ i ] ) ;
llama_token key ;
char sign ;
std : : string value_str ;
try {
if ( ss > > key & & ss > > sign & & std : : getline ( ss , value_str ) & & ( sign = = ' + ' | | sign = = ' - ' ) ) {
sparams . logit_bias [ key ] = std : : stof ( value_str ) * ( ( sign = = ' - ' ) ? - 1.0f : 1.0f ) ;
llama : new sampling algorithms (#1126)
* Sample interface, new samplers.
New samplers:
- locally typical sampling
- tail free sampling
- frequency and presence penalty
- mirostat
Ignore EOS fix: -inf should be used.
* mirostat
* Added --logit-bias and --no-penalize-nl, removed std::span
* Use C++11, clarify llama API documentation, rename Mirostat parameters to --mirostat_lr and --mirostat_ent, add temperature sampling for Mirostat, simplify Mirostat sampling API parameters (removed N and *k)
Use C++11, clarify llama API documentation, rename Mirostat parameters to --mirostat_lr and --mirostat_ent, add temperature sampling for Mirostat, simplify Mirostat sampling API parameters (removed N and *k)
* Save and load example adjust
* Tests
* Windows build fix
* Windows test fix
2023-04-29 05:34:41 +00:00
}
2024-03-18 08:27:44 +00:00
else {
throw std : : exception ( ) ;
llama : new sampling algorithms (#1126)
* Sample interface, new samplers.
New samplers:
- locally typical sampling
- tail free sampling
- frequency and presence penalty
- mirostat
Ignore EOS fix: -inf should be used.
* mirostat
* Added --logit-bias and --no-penalize-nl, removed std::span
* Use C++11, clarify llama API documentation, rename Mirostat parameters to --mirostat_lr and --mirostat_ent, add temperature sampling for Mirostat, simplify Mirostat sampling API parameters (removed N and *k)
Use C++11, clarify llama API documentation, rename Mirostat parameters to --mirostat_lr and --mirostat_ent, add temperature sampling for Mirostat, simplify Mirostat sampling API parameters (removed N and *k)
* Save and load example adjust
* Tests
* Windows build fix
* Windows test fix
2023-04-29 05:34:41 +00:00
}
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}
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catch ( const std : : exception & ) {
invalid_param = true ;
return true ;
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}
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return true ;
}
if ( arg = = " -h " | | arg = = " --help " ) {
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gpt_print_usage ( argc , argv , gpt_params ( ) ) ;
exit ( 0 ) ;
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}
if ( arg = = " --version " ) {
fprintf ( stderr , " version: %d (%s) \n " , LLAMA_BUILD_NUMBER , LLAMA_COMMIT ) ;
fprintf ( stderr , " built with %s for %s \n " , LLAMA_COMPILER , LLAMA_BUILD_TARGET ) ;
exit ( 0 ) ;
}
if ( arg = = " --random-prompt " ) {
params . random_prompt = true ;
return true ;
}
if ( arg = = " --in-prefix-bos " ) {
params . input_prefix_bos = true ;
return true ;
}
if ( arg = = " --in-prefix " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . input_prefix = argv [ i ] ;
return true ;
}
if ( arg = = " --in-suffix " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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params . input_suffix = argv [ i ] ;
return true ;
}
if ( arg = = " --grammar " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
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}
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sparams . grammar = argv [ i ] ;
return true ;
}
if ( arg = = " --grammar-file " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
std : : ifstream file ( argv [ i ] ) ;
if ( ! file ) {
fprintf ( stderr , " error: failed to open file '%s' \n " , argv [ i ] ) ;
invalid_param = true ;
return true ;
}
std : : copy (
std : : istreambuf_iterator < char > ( file ) ,
std : : istreambuf_iterator < char > ( ) ,
std : : back_inserter ( sparams . grammar )
) ;
return true ;
}
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if ( arg = = " -j " | | arg = = " --json-schema " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
sparams . grammar = json_schema_to_grammar ( json : : parse ( argv [ i ] ) ) ;
return true ;
}
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if ( arg = = " --override-kv " ) {
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
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if ( ! parse_kv_override ( argv [ i ] , params . kv_overrides ) ) {
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fprintf ( stderr , " error: Invalid type for KV override: %s \n " , argv [ i ] ) ;
invalid_param = true ;
return true ;
}
return true ;
}
main : log file (#2748)
* initial, base LOG macro
* add *.log to .gitignore
* added basic log file handler
* reverted log auto endline to better mimic printf
* remove atomics and add dynamic log target
* log_enable/disable, LOG_TEE, basic usage doc
* update .gitignore
* mv include to common, params, help msg
* log tostring helpers, token vectors pretty prints
* main: replaced fprintf/LOG_TEE, some trace logging
* LOG_DISABLE_LOGS compile flag, wrapped f in macros
* fix LOG_TEELN and configchecker
* stub LOG_DUMP_CMDLINE for WIN32 for now
* fix msvc
* cleanup main.cpp:273
* fix stray whitespace after master sync
* log : fix compile warnings
- do not use C++20 stuff
- use PRIu64 to print uint64_t
- avoid string copies by using const ref
- fix ", ##__VA_ARGS__" warnings
- compare strings with == and !=
* log : do not append to existing log + disable file line func by default
* log : try to fix Windows build
* main : wip logs
* main : add trace log
* review: macro f lowercase, str append to sstream
* review: simplify ifs and str comparisons
* fix MSVC, formatting, FMT/VAL placeholders
* review: if/else cleanup
* review: if/else cleanup (2)
* replace _ prefix with _impl suffix
---------
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
2023-08-30 06:29:32 +00:00
# ifndef LOG_DISABLE_LOGS
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// Parse args for logging parameters
if ( log_param_single_parse ( argv [ i ] ) ) {
// Do nothing, log_param_single_parse automatically does it's thing
// and returns if a match was found and parsed.
return true ;
}
if ( log_param_pair_parse ( /*check_but_dont_parse*/ true , argv [ i ] ) ) {
// We have a matching known parameter requiring an argument,
// now we need to check if there is anything after this argv
// and flag invalid_param or parse it.
if ( + + i > = argc ) {
invalid_param = true ;
return true ;
}
if ( ! log_param_pair_parse ( /*check_but_dont_parse*/ false , argv [ i - 1 ] , argv [ i ] ) ) {
invalid_param = true ;
return true ;
}
return true ;
}
// End of Parse args for logging parameters
main : log file (#2748)
* initial, base LOG macro
* add *.log to .gitignore
* added basic log file handler
* reverted log auto endline to better mimic printf
* remove atomics and add dynamic log target
* log_enable/disable, LOG_TEE, basic usage doc
* update .gitignore
* mv include to common, params, help msg
* log tostring helpers, token vectors pretty prints
* main: replaced fprintf/LOG_TEE, some trace logging
* LOG_DISABLE_LOGS compile flag, wrapped f in macros
* fix LOG_TEELN and configchecker
* stub LOG_DUMP_CMDLINE for WIN32 for now
* fix msvc
* cleanup main.cpp:273
* fix stray whitespace after master sync
* log : fix compile warnings
- do not use C++20 stuff
- use PRIu64 to print uint64_t
- avoid string copies by using const ref
- fix ", ##__VA_ARGS__" warnings
- compare strings with == and !=
* log : do not append to existing log + disable file line func by default
* log : try to fix Windows build
* main : wip logs
* main : add trace log
* review: macro f lowercase, str append to sstream
* review: simplify ifs and str comparisons
* fix MSVC, formatting, FMT/VAL placeholders
* review: if/else cleanup
* review: if/else cleanup (2)
* replace _ prefix with _impl suffix
---------
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
2023-08-30 06:29:32 +00:00
# endif // LOG_DISABLE_LOGS
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return false ;
}
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void gpt_params_handle_model_default ( gpt_params & params ) {
if ( ! params . hf_repo . empty ( ) ) {
// short-hand to avoid specifying --hf-file -> default it to --model
if ( params . hf_file . empty ( ) ) {
if ( params . model . empty ( ) ) {
throw std : : invalid_argument ( " error: --hf-repo requires either --hf-file or --model \n " ) ;
}
params . hf_file = params . model ;
} else if ( params . model . empty ( ) ) {
params . model = " models/ " + string_split ( params . hf_file , ' / ' ) . back ( ) ;
}
} else if ( ! params . model_url . empty ( ) ) {
if ( params . model . empty ( ) ) {
auto f = string_split ( params . model_url , ' # ' ) . front ( ) ;
f = string_split ( f , ' ? ' ) . front ( ) ;
f = string_split ( f , ' / ' ) . back ( ) ;
params . model = " models/ " + f ;
}
} else if ( params . model . empty ( ) ) {
params . model = DEFAULT_MODEL_PATH ;
}
}
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bool gpt_params_parse_ex ( int argc , char * * argv , gpt_params & params ) {
bool invalid_param = false ;
std : : string arg ;
const std : : string arg_prefix = " -- " ;
llama_sampling_params & sparams = params . sparams ;
for ( int i = 1 ; i < argc ; i + + ) {
arg = argv [ i ] ;
if ( arg . compare ( 0 , arg_prefix . size ( ) , arg_prefix ) = = 0 ) {
std : : replace ( arg . begin ( ) , arg . end ( ) , ' _ ' , ' - ' ) ;
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}
2024-03-22 01:32:42 +00:00
if ( ! gpt_params_find_arg ( argc , argv , arg , params , i , invalid_param ) ) {
2023-11-01 17:42:01 +00:00
throw std : : invalid_argument ( " error: unknown argument: " + arg ) ;
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}
}
2024-03-22 19:10:39 +00:00
2023-03-23 17:54:28 +00:00
if ( invalid_param ) {
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throw std : : invalid_argument ( " error: invalid parameter for argument: " + arg ) ;
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}
2024-03-22 19:10:39 +00:00
2023-05-10 15:37:14 +00:00
if ( params . prompt_cache_all & &
( params . interactive | | params . interactive_first | |
2023-05-19 17:24:59 +00:00
params . instruct ) ) {
2023-11-01 17:42:01 +00:00
throw std : : invalid_argument ( " error: --prompt-cache-all not supported in interactive mode yet \n " ) ;
2023-05-10 15:37:14 +00:00
}
2023-06-15 17:06:46 +00:00
2024-04-29 23:52:50 +00:00
gpt_params_handle_model_default ( params ) ;
2024-03-22 19:10:39 +00:00
2023-08-28 15:59:39 +00:00
if ( params . escape ) {
2023-05-04 12:08:25 +00:00
process_escapes ( params . prompt ) ;
2023-07-09 08:56:18 +00:00
process_escapes ( params . input_prefix ) ;
process_escapes ( params . input_suffix ) ;
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process_escapes ( sparams . cfg_negative_prompt ) ;
2023-10-05 16:17:29 +00:00
for ( auto & antiprompt : params . antiprompt ) {
process_escapes ( antiprompt ) ;
}
2023-05-04 12:08:25 +00:00
}
2023-03-10 18:40:58 +00:00
2023-12-05 17:19:18 +00:00
if ( ! params . kv_overrides . empty ( ) ) {
2024-02-03 11:23:37 +00:00
params . kv_overrides . emplace_back ( ) ;
2023-12-05 17:19:18 +00:00
params . kv_overrides . back ( ) . key [ 0 ] = 0 ;
}
2023-03-10 18:40:58 +00:00
return true ;
}
2023-04-14 19:58:43 +00:00
void gpt_print_usage ( int /*argc*/ , char * * argv , const gpt_params & params ) {
2023-10-20 18:07:23 +00:00
const llama_sampling_params & sparams = params . sparams ;
2023-10-11 19:35:46 +00:00
2024-02-11 13:43:31 +00:00
std : : string sampler_type_chars ;
std : : string sampler_type_names ;
for ( const auto sampler_type : sparams . samplers_sequence ) {
sampler_type_chars + = static_cast < char > ( sampler_type ) ;
sampler_type_names + = sampler_type_to_name_string ( sampler_type ) + " ; " ;
}
sampler_type_names . pop_back ( ) ;
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printf ( " \n " ) ;
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printf ( " usage: %s [options] \n " , argv [ 0 ] ) ;
printf ( " \n " ) ;
printf ( " options: \n " ) ;
printf ( " -h, --help show this help message and exit \n " ) ;
2024-01-12 11:05:32 +00:00
printf ( " --version show version and build info \n " ) ;
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printf ( " -i, --interactive run in interactive mode \n " ) ;
printf ( " --interactive-first run in interactive mode and wait for input right away \n " ) ;
printf ( " -ins, --instruct run in instruction mode (use with Alpaca models) \n " ) ;
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printf ( " -cml, --chatml run in chatml mode (use with ChatML-compatible models) \n " ) ;
2023-09-05 19:10:27 +00:00
printf ( " --multiline-input allows you to write or paste multiple lines without ending each in ' \\ ' \n " ) ;
printf ( " -r PROMPT, --reverse-prompt PROMPT \n " ) ;
printf ( " halt generation at PROMPT, return control in interactive mode \n " ) ;
printf ( " (can be specified more than once for multiple prompts). \n " ) ;
printf ( " --color colorise output to distinguish prompt and user input from generations \n " ) ;
printf ( " -s SEED, --seed SEED RNG seed (default: -1, use random seed for < 0) \n " ) ;
2023-09-28 19:42:38 +00:00
printf ( " -t N, --threads N number of threads to use during generation (default: %d) \n " , params . n_threads ) ;
printf ( " -tb N, --threads-batch N \n " ) ;
printf ( " number of threads to use during batch and prompt processing (default: same as --threads) \n " ) ;
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printf ( " -td N, --threads-draft N " ) ;
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printf ( " number of threads to use during generation (default: same as --threads) \n " ) ;
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printf ( " -tbd N, --threads-batch-draft N \n " ) ;
printf ( " number of threads to use during batch and prompt processing (default: same as --threads-draft) \n " ) ;
2023-09-05 19:10:27 +00:00
printf ( " -p PROMPT, --prompt PROMPT \n " ) ;
printf ( " prompt to start generation with (default: empty) \n " ) ;
printf ( " -e, --escape process prompt escapes sequences ( \\ n, \\ r, \\ t, \\ ', \\ \" , \\ \\ ) \n " ) ;
printf ( " --prompt-cache FNAME file to cache prompt state for faster startup (default: none) \n " ) ;
printf ( " --prompt-cache-all if specified, saves user input and generations to cache as well. \n " ) ;
printf ( " not supported with --interactive or other interactive options \n " ) ;
printf ( " --prompt-cache-ro if specified, uses the prompt cache but does not update it. \n " ) ;
printf ( " --random-prompt start with a randomized prompt. \n " ) ;
printf ( " --in-prefix-bos prefix BOS to user inputs, preceding the `--in-prefix` string \n " ) ;
printf ( " --in-prefix STRING string to prefix user inputs with (default: empty) \n " ) ;
printf ( " --in-suffix STRING string to suffix after user inputs with (default: empty) \n " ) ;
printf ( " -f FNAME, --file FNAME \n " ) ;
printf ( " prompt file to start generation. \n " ) ;
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printf ( " -bf FNAME, --binary-file FNAME \n " ) ;
printf ( " binary file containing multiple choice tasks. \n " ) ;
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printf ( " -n N, --n-predict N number of tokens to predict (default: %d, -1 = infinity, -2 = until context filled) \n " , params . n_predict ) ;
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printf ( " -c N, --ctx-size N size of the prompt context (default: %d, 0 = loaded from model) \n " , params . n_ctx ) ;
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printf ( " -b N, --batch-size N logical maximum batch size (default: %d) \n " , params . n_batch ) ;
printf ( " -ub N, --ubatch-size N \n " ) ;
printf ( " physical maximum batch size (default: %d) \n " , params . n_ubatch ) ;
2024-02-16 11:33:25 +00:00
printf ( " --samplers samplers that will be used for generation in the order, separated by \' ; \' \n " ) ;
printf ( " (default: %s) \n " , sampler_type_names . c_str ( ) ) ;
2024-02-11 13:43:31 +00:00
printf ( " --sampling-seq simplified sequence for samplers that will be used (default: %s) \n " , sampler_type_chars . c_str ( ) ) ;
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printf ( " --top-k N top-k sampling (default: %d, 0 = disabled) \n " , sparams . top_k ) ;
printf ( " --top-p N top-p sampling (default: %.1f, 1.0 = disabled) \n " , ( double ) sparams . top_p ) ;
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printf ( " --min-p N min-p sampling (default: %.1f, 0.0 = disabled) \n " , ( double ) sparams . min_p ) ;
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printf ( " --tfs N tail free sampling, parameter z (default: %.1f, 1.0 = disabled) \n " , ( double ) sparams . tfs_z ) ;
printf ( " --typical N locally typical sampling, parameter p (default: %.1f, 1.0 = disabled) \n " , ( double ) sparams . typical_p ) ;
2023-10-20 18:07:23 +00:00
printf ( " --repeat-last-n N last n tokens to consider for penalize (default: %d, 0 = disabled, -1 = ctx_size) \n " , sparams . penalty_last_n ) ;
printf ( " --repeat-penalty N penalize repeat sequence of tokens (default: %.1f, 1.0 = disabled) \n " , ( double ) sparams . penalty_repeat ) ;
printf ( " --presence-penalty N repeat alpha presence penalty (default: %.1f, 0.0 = disabled) \n " , ( double ) sparams . penalty_present ) ;
printf ( " --frequency-penalty N repeat alpha frequency penalty (default: %.1f, 0.0 = disabled) \n " , ( double ) sparams . penalty_freq ) ;
2024-02-05 08:00:47 +00:00
printf ( " --dynatemp-range N dynamic temperature range (default: %.1f, 0.0 = disabled) \n " , ( double ) sparams . dynatemp_range ) ;
printf ( " --dynatemp-exp N dynamic temperature exponent (default: %.1f) \n " , ( double ) sparams . dynatemp_exponent ) ;
2023-09-05 19:10:27 +00:00
printf ( " --mirostat N use Mirostat sampling. \n " ) ;
printf ( " Top K, Nucleus, Tail Free and Locally Typical samplers are ignored if used. \n " ) ;
2023-10-11 19:35:46 +00:00
printf ( " (default: %d, 0 = disabled, 1 = Mirostat, 2 = Mirostat 2.0) \n " , sparams . mirostat ) ;
printf ( " --mirostat-lr N Mirostat learning rate, parameter eta (default: %.1f) \n " , ( double ) sparams . mirostat_eta ) ;
printf ( " --mirostat-ent N Mirostat target entropy, parameter tau (default: %.1f) \n " , ( double ) sparams . mirostat_tau ) ;
2023-09-05 19:10:27 +00:00
printf ( " -l TOKEN_ID(+/-)BIAS, --logit-bias TOKEN_ID(+/-)BIAS \n " ) ;
printf ( " modifies the likelihood of token appearing in the completion, \n " ) ;
printf ( " i.e. `--logit-bias 15043+1` to increase likelihood of token ' Hello', \n " ) ;
printf ( " or `--logit-bias 15043-1` to decrease likelihood of token ' Hello' \n " ) ;
printf ( " --grammar GRAMMAR BNF-like grammar to constrain generations (see samples in grammars/ dir) \n " ) ;
printf ( " --grammar-file FNAME file to read grammar from \n " ) ;
2024-04-15 17:35:21 +00:00
printf ( " -j SCHEMA, --json-schema SCHEMA \n " ) ;
printf ( " JSON schema to constrain generations (https://json-schema.org/), e.g. `{}` for any JSON object. \n " ) ;
printf ( " For schemas w/ external $refs, use --grammar + example/json_schema_to_grammar.py instead \n " ) ;
2023-09-05 19:10:27 +00:00
printf ( " --cfg-negative-prompt PROMPT \n " ) ;
printf ( " negative prompt to use for guidance. (default: empty) \n " ) ;
printf ( " --cfg-negative-prompt-file FNAME \n " ) ;
printf ( " negative prompt file to use for guidance. (default: empty) \n " ) ;
2023-10-11 19:35:46 +00:00
printf ( " --cfg-scale N strength of guidance (default: %f, 1.0 = disable) \n " , sparams . cfg_scale ) ;
2023-11-01 22:04:33 +00:00
printf ( " --rope-scaling {none,linear,yarn} \n " ) ;
printf ( " RoPE frequency scaling method, defaults to linear unless specified by the model \n " ) ;
printf ( " --rope-scale N RoPE context scaling factor, expands context by a factor of N \n " ) ;
2023-09-20 16:12:47 +00:00
printf ( " --rope-freq-base N RoPE base frequency, used by NTK-aware scaling (default: loaded from model) \n " ) ;
2023-11-01 22:04:33 +00:00
printf ( " --rope-freq-scale N RoPE frequency scaling factor, expands context by a factor of 1/N \n " ) ;
printf ( " --yarn-orig-ctx N YaRN: original context size of model (default: 0 = model training context size) \n " ) ;
printf ( " --yarn-ext-factor N YaRN: extrapolation mix factor (default: 1.0, 0.0 = full interpolation) \n " ) ;
printf ( " --yarn-attn-factor N YaRN: scale sqrt(t) or attention magnitude (default: 1.0) \n " ) ;
printf ( " --yarn-beta-slow N YaRN: high correction dim or alpha (default: %.1f) \n " , params . yarn_beta_slow ) ;
printf ( " --yarn-beta-fast N YaRN: low correction dim or beta (default: %.1f) \n " , params . yarn_beta_fast ) ;
2024-03-03 10:40:27 +00:00
printf ( " --pooling {none,mean,cls} \n " ) ;
printf ( " pooling type for embeddings, use model default if unspecified \n " ) ;
2024-02-27 12:35:51 +00:00
printf ( " -dt N, --defrag-thold N \n " ) ;
printf ( " KV cache defragmentation threshold (default: %.1f, < 0 - disabled) \n " , params . defrag_thold ) ;
2023-09-05 19:10:27 +00:00
printf ( " --ignore-eos ignore end of stream token and continue generating (implies --logit-bias 2-inf) \n " ) ;
2024-03-27 07:23:10 +00:00
printf ( " --penalize-nl penalize newline tokens \n " ) ;
2023-10-11 19:35:46 +00:00
printf ( " --temp N temperature (default: %.1f) \n " , ( double ) sparams . temp ) ;
2024-03-01 13:48:56 +00:00
printf ( " --all-logits return logits for all tokens in the batch (default: disabled) \n " ) ;
2023-09-05 19:10:27 +00:00
printf ( " --hellaswag compute HellaSwag score over random tasks from datafile supplied with -f \n " ) ;
printf ( " --hellaswag-tasks N number of tasks to use when computing the HellaSwag score (default: %zu) \n " , params . hellaswag_tasks ) ;
2024-01-18 11:46:27 +00:00
printf ( " --winogrande compute Winogrande score over random tasks from datafile supplied with -f \n " ) ;
printf ( " --winogrande-tasks N number of tasks to use when computing the Winogrande score (default: %zu) \n " , params . winogrande_tasks ) ;
2024-01-21 12:42:44 +00:00
printf ( " --multiple-choice compute multiple choice score over random tasks from datafile supplied with -f \n " ) ;
printf ( " --multiple-choice-tasks N number of tasks to use when computing the multiple choice score (default: %zu) \n " , params . winogrande_tasks ) ;
2024-02-16 09:31:07 +00:00
printf ( " --kl-divergence computes KL-divergence to logits provided via --kl-divergence-base \n " ) ;
2023-09-05 19:10:27 +00:00
printf ( " --keep N number of tokens to keep from the initial prompt (default: %d, -1 = all) \n " , params . n_keep ) ;
printf ( " --draft N number of tokens to draft for speculative decoding (default: %d) \n " , params . n_draft ) ;
printf ( " --chunks N max number of chunks to process (default: %d, -1 = all) \n " , params . n_chunks ) ;
2023-09-28 16:04:36 +00:00
printf ( " -np N, --parallel N number of parallel sequences to decode (default: %d) \n " , params . n_parallel ) ;
printf ( " -ns N, --sequences N number of sequences to decode (default: %d) \n " , params . n_sequences ) ;
2023-11-03 07:41:17 +00:00
printf ( " -ps N, --p-split N speculative decoding split probability (default: %.1f) \n " , ( double ) params . p_split ) ;
2023-09-28 16:04:36 +00:00
printf ( " -cb, --cont-batching enable continuous batching (a.k.a dynamic batching) (default: disabled) \n " ) ;
ggml : add Flash Attention (#5021)
* ggml : add ggml_flash_attn_ext API
* ggml : fix GQA support in ggml_flash_attn_ext
* ggml : online attention (CPU)
* metal : initial implementation
* metal : f16 precision
* metal : reduce branches
* metal : specialize for head size
* wip : 8 rows per simd group
* wip : 4 rows per simd group
* wip : template for rows per warp
* metal : parallelize across KV size
* metal : parallel reduce across heads
* metal : efficient flash_attn_f16 implementation
* metal : avoid redundant loads of the attention
* metal : scale and mask in matrix form
* metal : fix comment
* llama : avoid ggml_cast, use F32 query
* metal : add parallel reduce version (disabled)
* metal : move output into local memory + optimize
- the result from each simdgroup now stays in the registers
- significantly reduced SRAM usage
- more efficient skipping of -INF blocks
- avoid simdgroup barrier in hot loop
- add comments
* metal : add tests, fix scaling, support C > 32
* metal : improve precision
* ggml : fix f16 mad
* metal : minor
* metal : support Q > 8
* tests : add ATTN tests
* metal : disable buffer allocation logs
* tests : more
* metal : faster inner loop for C == 32
* metal : fix array initialization
* tests : ifdef
* ggml : switch to padded F16 mask for ggml_soft_max, ggml_flash_attn_ext
* ggml : fix ggml_soft_max mask requirement
* cuda : fix soft_max to use correct mask size
* cuda : add flash_attn kernel (wip)
* metal : optimize softmax for C > 32
* metal : optimize softmax
* tests : minor fix
* cuda : avoid zeroing fragments
* tests : update dims
* cuda : fix __hisinf() result check
* cuda : avoid warp_reduce for smax
* cuda : use int instead of int64_t
Noticeably improves performance (thanks to Johannes)
* cuda : make loops use the same loop values
Thanks Johannes again for the tip
* cuda : unroll some of the loops
* cuda : avoid __hisinf branches
* cuda : use half2 in softmax
* cuda : switch to 1 warp for bs > 16
* cuda : speed-up reduce part of the kernel
* cuda : unroll Q*K^T loop
* cuda : fix -INF block check
* cuda : simplify softmax
* cuda : fix matrix names
* cuda : minor
* llama : adapt to F16 KQ_pos
* llama : adapt new models to F16 KQ_mask
* ggml : fix F16 store (ARM NEON)
* llama : fix type of KQ_mask and KQ_pos
* ggml : fix CPU soft_max
* tests : add hs=256
* cuda : fix build
* metal : improve perf via smaller int registers
* cuda : adapt soft_max to F16 mask and pos
* CUDA: faster FlashAttention, kernel for bs == 1
* 16 cols for Phi-2
* no vec for hs, no hs==256 ncols==32 for Volta
* adjust kernel selection logic
* 4 warps, 256 stride for all D
* no ncols == 64
* Multiple parallel blocks for batch size 1
* fix compile warnings
* fix excessive KQ_b loads
* fix cmake build
* fix KV cache padding, NaN from INFINITY (#6438)
* llama : flash_attn cparam + fix defrag
* server: support flash_attn param
* server: bench: enable flash_attn param
* CUDA: refactor host code, dyn. par. blocks
* fix flash_attn_vec_f16 race condition
* flush softmax exp below threshold to 0
* store temp KQ in registers
* Calculate KQ as FP32 if KQV has GGML_PREC_F32
* Add __hgt2_mask implementation for CUDA 11
* fix KQ FP32 precision fpr parallel_blocks > 1
* llama-bench : add -fa,--flash-attn arg
* metal : add BS=1 kernel for flash attention (#6508)
* metal : add BS=1 kernel for flash attention (wip)
* metal : support more than 1 warps
* metal : opts
* metal : opt
* metal : switch to parallel reduce
* metal : reduce registers
* metal : simplify
* metal : initial FA vec kernel
* metal : use F32 attention accumulators
* batched-bench : add fattn arg
* llama : simplify llama_build_kv_store
ggml-ci
* llama : adapt build_olmo to changes
* ggml : fix arm fp16 store on windows
* metal : clean-up
* metal : clean-up kernel code
* metal : minor
* tests : remove benchmarks
ggml-ci
* ggml : fix avx512 const correctness
ggml-ci
* ggml : fix soft_max with bias on CPU
ggml-ci
* common : print --flash-attn in help
* ggml : fix num dimensions in ggml_flash_attn_ext
* llama : force disable flash attention for incompatible models
* ggml : ggml_soft_max support F16/F32 mask/pos
ggml-ci
* cuda : uint -> uint32_t
* cuda : "constexpr dim3" -> "const dim3"
ggml-ci
* cuda : try to fix __hgt2_mask
ggml-ci
* ggml : add TODO's for F16/F32 mask/pos support in other backends
* llama : replace bool need_kq_pos with use_alibi
* llama : prep ALiBi support for BERT models
ggml-ci
* llama : fix n_batch requirements
ggml-ci
* cont
* server : add help for --flash-attn arg
* llama : disable FA for AMD
* tests : remove TMP_ATTN_BENCH
ggml-ci
* llama : support save/load state with FA enabled
ggml-ci
* ci : add CUDA save-load-state tests
ggml-ci
* llama : llama_kv_cache_clear zeroes data + fix save-load seq
ggml-ci
* llama : fix copy-paste errors, add TODO
* llama : disallow incompatible states
* llama : update llama_state_get_size after v_trans field
* metal : remove tmp log
* llama : add static reminder for llama_state_get_size
* metal : fix max nsg
ggml-ci
* ci : fix arg order
ggml-ci
---------
Co-authored-by: Johannes Gäßler <johannesg@5d6.de>
Co-authored-by: Pierrick HYMBERT <pierrick.hymbert@gmail.com>
2024-04-30 09:16:08 +00:00
printf ( " -fa, --flash-attn enable Flash Attention (default: %s) \n " , params . flash_attn ? " enabled " : " disabled " ) ;
2023-10-12 15:23:18 +00:00
printf ( " --mmproj MMPROJ_FILE path to a multimodal projector file for LLaVA. see examples/llava/README.md \n " ) ;
2024-04-29 14:34:24 +00:00
printf ( " --image IMAGE_FILE path to an image file. use with multimodal models. Specify multiple times for batching \n " ) ;
2024-01-31 15:30:17 +00:00
if ( llama_supports_mlock ( ) ) {
2023-09-05 19:10:27 +00:00
printf ( " --mlock force system to keep model in RAM rather than swapping or compressing \n " ) ;
2023-03-24 15:19:05 +00:00
}
2024-01-31 15:30:17 +00:00
if ( llama_supports_mmap ( ) ) {
2023-09-05 19:10:27 +00:00
printf ( " --no-mmap do not memory-map model (slower load but may reduce pageouts if not using mlock) \n " ) ;
Rewrite loading code to try to satisfy everyone:
- Support all three formats (ggml, ggmf, ggjt). (However, I didn't
include the hack needed to support GPT4All files without conversion.
Those can still be used after converting them with convert.py from my
other PR.)
- Support both mmap and read (mmap is used by default, but can be
disabled with `--no-mmap`, and is automatically disabled for pre-ggjt
files or on platforms where mmap is not supported).
- Support multi-file models like before, but automatically determine the
number of parts rather than requiring `--n_parts`.
- Improve validation and error checking.
- Stop using the per-file type field (f16) entirely in favor of just
relying on the per-tensor type/size fields. This has no immediate
benefit, but makes it easier to experiment with different formats, and
should make it easier to support the new GPTQ-for-LLaMa models in the
future (I have some work in progress on that front).
- Support VirtualLock on Windows (using the same `--mlock` option as on
Unix).
- Indicate loading progress when using mmap + mlock. (Which led me
to the interesting observation that on my Linux machine, with a
warm file cache, mlock actually takes some time, whereas mmap
without mlock starts almost instantly...)
- To help implement this, move mlock support from ggml to the
loading code.
- madvise/PrefetchVirtualMemory support (based on #740)
- Switch from ifstream to the `fopen` family of functions to avoid
unnecessary copying and, when mmap is enabled, allow reusing the same
file descriptor for both metadata reads and mmap (whereas the existing
implementation opens the file a second time to mmap).
- Quantization now produces a single-file output even with multi-file
inputs (not really a feature as much as 'it was easier this way').
Implementation notes:
I tried to factor the code into more discrete pieces than before.
Regarding code style: I tried to follow the code style, but I'm naughty
and used a few advanced C++ features repeatedly:
- Destructors to make it easier to ensure everything gets cleaned up.
- Exceptions. I don't even usually use exceptions when writing C++, and
I can remove them if desired... but here they make the loading code
much more succinct while still properly handling a variety of errors,
ranging from API calls failing to integer overflow and allocation
failure. The exceptions are converted to error codes at the
API boundary.)
Co-authored-by: Pavol Rusnak <pavol@rusnak.io> (for the bit I copied from #740)
2023-04-08 19:24:37 +00:00
}
2024-02-16 09:31:07 +00:00
printf ( " --numa TYPE attempt optimizations that help on some NUMA systems \n " ) ;
printf ( " - distribute: spread execution evenly over all nodes \n " ) ;
printf ( " - isolate: only spawn threads on CPUs on the node that execution started on \n " ) ;
printf ( " - numactl: use the CPU map provided by numactl \n " ) ;
2023-09-05 19:10:27 +00:00
printf ( " if run without this previously, it is recommended to drop the system page cache before using this \n " ) ;
printf ( " see https://github.com/ggerganov/llama.cpp/issues/1437 \n " ) ;
2024-01-31 15:30:17 +00:00
if ( llama_supports_gpu_offload ( ) ) {
printf ( " -ngl N, --n-gpu-layers N \n " ) ;
printf ( " number of layers to store in VRAM \n " ) ;
printf ( " -ngld N, --n-gpu-layers-draft N \n " ) ;
printf ( " number of layers to store in VRAM for the draft model \n " ) ;
printf ( " -sm SPLIT_MODE, --split-mode SPLIT_MODE \n " ) ;
printf ( " how to split the model across multiple GPUs, one of: \n " ) ;
printf ( " - none: use one GPU only \n " ) ;
printf ( " - layer (default): split layers and KV across GPUs \n " ) ;
printf ( " - row: split rows across GPUs \n " ) ;
printf ( " -ts SPLIT, --tensor-split SPLIT \n " ) ;
printf ( " fraction of the model to offload to each GPU, comma-separated list of proportions, e.g. 3,1 \n " ) ;
printf ( " -mg i, --main-gpu i the GPU to use for the model (with split-mode = none), \n " ) ;
printf ( " or for intermediate results and KV (with split-mode = row) (default: %d) \n " , params . main_gpu ) ;
}
2024-01-13 16:09:08 +00:00
printf ( " --verbose-prompt print a verbose prompt before generation (default: %s) \n " , params . verbose_prompt ? " true " : " false " ) ;
printf ( " --no-display-prompt don't print prompt at generation (default: %s) \n " , ! params . display_prompt ? " true " : " false " ) ;
2024-01-08 09:18:32 +00:00
printf ( " -gan N, --grp-attn-n N \n " ) ;
printf ( " group-attention factor (default: %d) \n " , params . grp_attn_n ) ;
2024-01-08 19:05:53 +00:00
printf ( " -gaw N, --grp-attn-w N \n " ) ;
2024-01-08 09:18:32 +00:00
printf ( " group-attention width (default: %.1f) \n " , ( double ) params . grp_attn_w ) ;
2023-11-23 17:07:56 +00:00
printf ( " -dkvc, --dump-kv-cache \n " ) ;
printf ( " verbose print of the KV cache \n " ) ;
2023-12-07 11:03:17 +00:00
printf ( " -nkvo, --no-kv-offload \n " ) ;
printf ( " disable KV offload \n " ) ;
printf ( " -ctk TYPE, --cache-type-k TYPE \n " ) ;
printf ( " KV cache data type for K (default: %s) \n " , params . cache_type_k . c_str ( ) ) ;
printf ( " -ctv TYPE, --cache-type-v TYPE \n " ) ;
printf ( " KV cache data type for V (default: %s) \n " , params . cache_type_v . c_str ( ) ) ;
2023-10-28 10:16:33 +00:00
printf ( " --simple-io use basic IO for better compatibility in subprocesses and limited consoles \n " ) ;
2023-09-05 19:10:27 +00:00
printf ( " --lora FNAME apply LoRA adapter (implies --no-mmap) \n " ) ;
train : finetune LORA (#2632)
* fix track_max_mem in forward_batch_wo_cache_flash_attn_train
* remove unnecessary Adam(W) optimizer tensors.
reduces optimizer memory overhead from 7*modelsize to 2*modelsize.
additionally allows to optimize models with more than 2^31 parameters by replacing int with int64_t.
bumps training checkpoint file version, but old checkpoints can still be read.
new version with less tensors is saved.
* add gradient clipping to AdamW
* Fix reset of unused g->nodes and g->grads to NULL
* implement gradient checkpointing for training
reduces memory overhead from O(n_layer) to O(sqrt(n_layer))
as explained in readme of https://github.com/cybertronai/gradient-checkpointing
* remove unused compute buffer 3
* add and use function ggml_build_backward_expand to avoid stack overflows with large maximum number of nodes
GGML_API void ggml_build_backward_expand(struct ggml_context * ctx, struct ggml_cgraph * gf, struct ggml_cgraph * gb, bool keep);
* change AdamW decay parameter to work like the torch AdamW decay parameter
It is now relative to Adam learning rate `alpha*sched`.
Before that it was relative to `sched` only.
`alpha` being the maximum learning rate and `sched` being a scaling parameter in [0..1]
* change default AdamW weight decay parameter used in training to 0.1 as used in nanoGPT
* change default AdamW weight decay parameter defined in ggml to 0.0, making Adam default instead of AdamW
btw: the default weight decay parameter for torch.optim.AdamW is 0.01
* bug fixes for cross entropy loss
ggml_cross_entropy_loss: sums where not correctly added in workload of each thread
ggml_cross_entropy_loss_back: simplify backward process, reducing numerical issues
guard usage of exp f16 lookup in cross entropy by #define GGML_CROSS_ENTROPY_EXP_FP16
cross entropy loss is only used once during training, but it is quite sensitive to numerical errors introduced by exp-f16-lookup.
so exp-f16-lookup for cross entropy loss is disabled by default, trading better gradients for very slightly worse runtime performance.
* fix test-grad0 for cross_entropy_loss
the second argument to cross_entropy_loss must sum up to 1 for each row
* fix test-grad0 for soft_max
dont use only sum as aggregation, because sum of softmax is always 1 -> finite differences should not work
instead use sum(log(soft_max()*(1-eps)+eps)); use eps to avoid log(0)
* improve finite differences of test-grad0 by using double instead of float
* change cross_entropy_loss to output average over all rows
this helps keeping the loss and gradients in a sane range
* improve gradient checkpointing
sqrt(n_layers) is only the best checkpoint step when mem size of checkpoints and mem size of layers are equal.
since layers require more memory than the single-tensor-checkpoint we use, the optimal values are compute different:
```
given: n, u, v
objective: minimize(a*u+b*v) where a*b=n, a>0, b>0
b=n/a
minimize(a*u+v*n/a)
diff(a*u+v*n/a, a) = u - (v*n/a)/a
diff(a*u+v*n/a, a) == 0
u - (v*n/a)/a == 0
u == v*n/(a*a)
u*a*a = v*n
a*a = v*n/u
a = sqrt(n*v/u)
```
this change results in more checkpoints, requiring less layers to store between checkpoints, overall improving memory usage.
* disable gradient checkpointing debug output
* llama : fix rope usage in train-text-from-scratch after ChatGLM change
* add more training parameters:
--enable-restart N Only for Adam optimizer. Enable restarts of cos-decay
--disable-restart N Only for Adam optimizer. Disable restarts of cos-decay
--opt-past N Number of optimization iterations to track for delta convergence test. Disabled when zero.
--opt-delta N Maximum delta for delta convergence test. Disabled when <= zero.
--opt-max-no-improvement N Maximum number of optimization iterations with no improvement. Disabled when <= zero.
--adam-epsf N AdamW epsilon for convergence test. Disabled when <= zero.
--adam-min-alpha N Adam minimum learning rate alpha, usually 0.1 * alpha
* replace memcpy with reshape operation so that the graph is not cut at the input
this makes it possible to store other values into the input tensor and then simply recompute the graph without rebuilding it
* remove unused function argument from get_example_targets_batch
* measure and print total training time
* add optimization callback to ggml_opt_resume_g
this callback is called before each iteration with custom data and pointer to learning schedule parameter (only used in Adam(W)).
can be used for dynamic learning schedule and setting input data for batches before each iteration
* use optimization callback in training
allows dynamic learning schedule and different batch data for each iteration without relying on low n_iter and high n_examples parameters
reduces runtime by avoiding restart of optimization function and improves training convergence by providing a different batch for each iteration
* add minimum number of tensor dimensions to apply weight decay (default 2)
this allows to not apply weight decay to bias parameters
* rename training parameter cos-decay-alpha to cos-decay-min and clarify that adam-min-alpha also applies to warmup
* fix increase of model.train_samples and model.train_tokens
now that each optimizer iteration gets its own batch we need to multiply by number of opt iterations
* change sampling parameters for prediction after training to defaults of common.h
and clarify what is context for prediction and what are generated tokens
* tighten abs error bounds for cross_entropy_loss in test-grad0
* add conditional compilation of using F16 exp in flash attention
uncomment `// #define GGML_FLASH_ATTN_EXP_FP16` to enable usage of f16 exp in flash attention
* tighten abs error bounds for flash_attn in test-grad0
* tighten abs error bounds for sqrt in test-grad0
* remove out-commented vectorized code of opt_adam
the vectorized code might be bit faster for low number of parameters, but it had a big memory usage overhead
* ggml : update ggml_rms_norm_back with configurable eps
* llama training : fix ggml_rms_norm_back calls to pass configurable eps
* remove trailing whitespace
* add train function using automatic gradient checkpointing backward pass and allocator
* in train function replace add_inplace by regular add
because using add_inplace seems to result in different gradients
* don't use allocate hash_map on context
because the context has no_alloc=True when using memory allocator resulting in NULL data pointers
* correctly clone reshape and permute operations by also cloning tensor->nb values
* fix variable name and add missing type cast
* terminate recursive tensor cloning when reaching tensor without src tensors
* correctly clone view tensors by setting data pointers
without this the checkpointing would only work when being used together with memory allocator
* fix variable names
* swap arguments to commutative ops to be the same as in `forward_batch_wo_cache_flash_attn`
* add input tensors as checkpoints
so that recursive tensor cloning of gradient checkpointing terminates on input tensors
* fix variable name and add missing boolean negation
* make sure some tensors are not reallocated by inserting new temporary nodes depending on them:
output and parameter gradient tensors need to be available at the end of the graph execution
parameter gradient tensors also need to be available before the graph execution because they are set to zero before each optimizer iteration
checkpoint tensors are allocated all together to reduce memory allocator fragmentation
afterwards, in addition to the temporary nodes, we also need to reset the temporary leafs
* fix ASSERT to work with zero layers
* add training options whether to use allocator and/or unified training function
* integrate unified training function which may use memory allocator
the unified training function also supports arguments whether to use flash attention and/or gradient checkpointing
* format name of cloned tensors with " (clone)" suffix
* set names for tensors in unified train function for easier debugging
* allocate graph on context using ggml_new_graph
* remove handwritten training functions
* remove unused training parameters "use_scratch" and "use_unified"
* remove trailing whitespace
* remove unused train params: mem_compute1_gb & mem_compute2_gb
mem_compute_gb is used for compute when automatic memory allocator is not enabled, otherwise it can be very small to only hold the tensor definitions
mem_compute0_gb is used for automatic memory allocator (as long as measurement of max required size is not implemented)
* remove unused forward_batch function
* add debug asserts in ggml_allocr_alloc to some common pitfalls when using this function directly
* only use ggml_allocr_alloc when tensor has NULL data and is no view
* fix test when to create temporary backward graph
temporary backward graph is only necessary when using checkpointing
* fix memory "leak" in optimizers
each iteration a new cplan with new memory for work data was allocated.
now cplan creation only happens at the start of optimization, with each iteration reusing the cplan and its work data.
* reverse order of for loop in ggml_build_backward_expand to save memory when using gradient checkpointing and allocator
with this loop order gradient checkpointing with allocator on 16 layer model saves 13% memory; 2 layer memory it saves 2% memory.
the computation results are the same
* add API functions to access llama model tensors
* add stub example for finetuning, based on train-text-from-scratch
* move and remove code
* add API functions to access remaining model parameters:
mult, head and rot
* first draft for LORA finetune training
* remove const model and layer arguments in API functions for accessing model tensors
* bug fixes to make finetune compile
automatic allocator does not work yet
* add debug prints for training memory improvements
* fix names of lora tensors
* avoid stack overflow resulting from big ggml_cgraph
replace stack allocation and ggml_build_forward by ggml_new_graph in combination with ggml_build_forward_expand
* replace llama API functions to get model tensors by one function to get model tensor by name
LLAMA_API struct ggml_tensor * llama_get_model_tensor(struct llama_model * model, const char * name);
* remove unused call to not existing llama_get_layer_from_model
* implement ggml_compute_forward_out_prod_q_f32
* remove trailing whitespace
* add lora finetune support on quantized base model tensors
* add ggml_add_cast API function
this function works like ggml_add, but accepts a data type for the resulting tensor.
only supported for quantized src0 input.
* use ggml_add_cast in finetuning
lora-applied weights will now have data type F32, which improves gradients when finetuning quantized base models
* bug fix: actually use result type passed to ggml_add_cast
* make sure base model tensors data cannot be used in viewable operations
memory allocator would try to make lora application inplace on base model tensors.
since those are memory mapped this will result in memory access violations
* fix bug in ggml_out_prod which resulted in wrong n_dims of result tensors
* avoid keeping in memory ALL of the gradients
The problem here stems from ggml_graph_reset. This function is called in the optimization function, before each graph computation, to reset the gradients to zero. This required a unique memory slot for each gradient: allocating memory from a previosly freed memory location might lead to non-zero input gradients.
During ggml_compute_backward the gradients are build stepwise by adding or substracting new values, starting from a OP_NONE tensor which needs to contain zero-values. This requires the graph reset.
To avoid this I now remember in ggml_build_backward_expand the original OP_NONE gradient tensors in a hash table, which is passed to ggml_compute_backward. There instead of using add (or sub or similar) I test whether the existing gradient to be changed is a zero-valued-tensor by looking up its existence in the hash table. When it is such a zero-tensor it will not be modified, but replaced by the value to be added, otherwise the regular add (not inplace, allocator will take care of this) will be used. This way none of those zero-tensor values will be necessary in the final backward graph and more importantly they won't need a unique memory slot, just to make them zero.
* remove trailing whitespace
* remove debug prints and function to compute tensor data hash
* improve optimization iteration prints
* adjust maximal values to support finetuning 3B models
* change default finetune params lora_r and lora_alpha to match the n_rank parameters of 4
* bug fix: make sure finetune input gradient is allocated at begin and kept until end
* remove unnecessary src tensor from ggml_get_rows_back
we don't need data of src[2] for computation, only to setup the correct output shape.
remove dependency on src[2], so that allocator can work more freely.
the computational graph is still completely determined, because the output shape is naturally included.
this is similar to how ggml_reshape does it.
* remove unnecessary src tensor from ggml_repeat & ggml_repeat_back
we don't need data of src[1] for computation, only to setup the correct output shape.
remove dependency on src[1], so that allocator can work more freely.
the computational graph is still completely determined, because the output shape is naturally included
* resolve todo
allocator will only make it inplace when they are of the same type
* mixing multiple LORA adapters is now possible
pass more than one '--lora FNAME' argument to apply more than one LORA.
use '--lora-scaled FNAME S' when you want to specify a user-defined scale for an adapter.
* add option to save finetune output every N iterations
* also save latest finetune output with ITERATION="LATEST" and print where files are saved
saving with LATEST makes it easier to resume training from the latest checkpoint
the string "LATEST" can be configured with command line option "--fn-latest STR"
* update checkpoint train stats before saving via "--save-every"
* add command line option `--rank-wo N` for rank of wo tensor
* update finetune README
* fix dump_non_result_info_yaml to output multiple lora adapters
* bug fix: replace GGML_TYPE_SIZE[t] by ggml_type_size(t)
* replace llama_n_mult by llama_n_ff
* finetune bug fixes to compile with merged in code from master
* remove prediction related code to reduce duplicated code with main
use main instead
* reduce large memory overhead in train-text-from-scratch
all gradients had to be pinned so that graph_reset works correctly.
this is no longer necessary with the changes to ggml_compute_backward introduced in this PR.
* add comment explaining why finetune checkpoints are allocated in one block
* make default value of float member a float literal
* handle rms_norm and rope parameters the same as in train-text-from-scratch
* remove unused code
* remove vocab related code as it is unnecessary
* add LLM_KV_TRAINING_TYPE to train-text-from-scratch checkpoints
so that they can be differentiated from lora finetune checkpoints
* add gguf constants and load/save functions from train-text-from-scratch
* add load & save lora finetune checkpoints via gguf
* add python script to convert old finetune checkpoint files to gguf
* remove old checkpoint save & load code
* remove code to print data checksums which was used to verify correctness of new gguf code
* omit tokenization when training is disabled, only save llama lora adapter
training can be disabled by passing '-n 0' to finetune
* remove trailing whitespace
* update README.md
* implement ggml_compute_forward_repeat_f16
* avoid stack overflow of large cgraphs in test-grad0
* add ggml API functions ggml_unravel_index, ggml_get_i32_nd and its analogs for set and for f32
ggml_get_i32_1d, ggml_set_i32_1d, ggml_get_f32_1d, ggml_set_f32_1d now support non-contiguous tensors.
in case of non-contiguous tensor, the 1d index is unraveled into a multi index using ggml_unravel_index to be passed to '_nd' function equivalent.
this fixes a bug in test-grad0 which happens due to ggml_build_backward not building purely contiguous tensors anymore
* increase test-grad0 context mem size to accommodate for bigger cgraph
* add sanity check to ggml_compute_backward, asserting the correct shape of gradients
* fix ggml_acc_or_set to return tensor of correct shape
* remove unused 'inplace' argument from ggml_compute_backward function
inplace operations to add gradients are no longer created by ggml_compute_backward
use allocator to automatically make inplace operations
* add missing argument 'int i0' to ggml_get_i32_nd & ggml_set_i32_nd header declarations
* fix error message in ggml_allocr_alloc to display actual max_avail
* fix check_gradient
ggml_build_backward_expand was previously replaced by ggml_build_backward, but the assignment of forward graph to backward graph missing
* use tensor->view_src instead of ggml_is_view and get_view_source
* move gradient checkpointing code into ggml, new API function:
// build gradient checkpointing backward graph gb for gf using provided checkpoints
// gb_tmp will contain original backward graph with rewritten backward process nodes,
// but without the second forward pass nodes.
GGML_API void ggml_build_backward_gradient_checkpointing(
struct ggml_context * ctx,
struct ggml_cgraph * gf,
struct ggml_cgraph * gb,
struct ggml_cgraph * gb_tmp,
struct ggml_tensor * * checkpoints,
int n_checkpoints);
* replace custom data getters and setters by ggml functions
* train-text-from-scratch can train (full finetune) gguf models
just pass the gguf model via `--checkpoint-in FN`.
after this, to continue training, pass the generated checkpoint instead of the original gguf model.
tested with smaller models, bigger models may exceed available memory.
use (LORA) finetune for those.
* remove trailing whitespace
* add option to save train-text-from-scratch output every N iterations
* update README.md
* fix warnings
* fix warnings
* remove finetune option to disable allocator
the allocator should always be used.
by making sure that it is always used it gets easier to implement automatic memory requirements computation
* add tensor checkpoints only when gradient checkpointing is enabled
* initialize opt ggml context if none was provided
* add ggml-alloc API function 'ggml_allocr_max_size' to get max size of alloc
GGML_API size_t ggml_allocr_max_size(struct ggml_allocr * alloc);
* finetune: automatically allocate all memory and changes to command line options
remove '--n_examples N' parameter, as it no longer makes sense to call optimization process multiple times in a loop.
add '--only_write_lora' command line option: will skip tokenization and training, to only write a llama.cpp comptabile LORA adapter.
remove memory buffer related command line options.
improve iteration console output.
* add finetune to Makefile
* update README.md
* print time per iteration and estimate remaining time
* increase measured alloc size by tensor_alignment
ggml_allocr_reset will reduce the given size by up to tensor_alignment-1
* fix README.md
* add some more allocator debug prints
* bug fix, probably solves the 'ggml_allocr_alloc: not enough space in the buffer' issue
* revert last commit
"bug fix, probably solves the 'ggml_allocr_alloc: not enough space in the buffer' issue"
"alloc was freeing an externally allocated tensor, because it calculated the end of allocator memory as alloc->data + alloc->max_size instead of alloc->data + alloc->size."
This is intentional to reduce the risk of freeing external tensors when measuring. Unless max_size is not properly calculated, I don't see why this is an issue.
* remove unnecessary "0x" before "%p" output
* move measurement memory segment to upper region of the address space
* update README.md
* fix printf format warnings
* add missing gguf_free in load_checkpoint_lora_file
* load default rms_norm and rope parameters from base model
* add gradient accumulation
specify number accumulation steps with '--grad-acc N'.
this will simulate a bigger batch size of grad_acc*batch.
* fix tracking of train_samples and train_tokens
* build : fix compile warnings
* ggml : fix L-BFGS linesearch loop
* improve finetune time measurement
fix printf warnings on system where int64_t is (long int).
change time datatypes to double because values get big with long training times.
exclude file saving from time measurement.
converge faster to actual time per iteration by removing very small first duration before first iteration was performed.
fix bug in output of total training time, the reported value was 1000 times to small.
* specify default lora rank with '--lora-r N'
'--lora-r N' will specify default rank for all tensors
'--rank-wq N', etc. will override this default rank for specific tensor types.
* fix gradient accumulation bug where the same batch was used for each microstep
* fix gradient accumulation bug where the same batch was used for each microstep
* support grouped-query-attention in ggml_flash_attn and ggml_flash_attn_back
k and v can now be repeated in q along ne[2]
in forward pass just use modulo to compute k and v indices, like ik2 = iq2 % nek2.
in backard pass this won't work as easy, because multiple threads will compete to accumulate to the same k->grad[:,ik1,ik2,ik3] and v->grad[:,iv1,iv2,iv3].
so we change the parallelization over q rows to be over k rows. this ensures non-overlapping (ik2,ik3) across threads.
in each thread we then iterate over the number of repetitions of k/v in q to compute iq2 as iq2 = ik2 + irep*nek2.
since ne2 is not the same for q,k and v we also change how the gradients are concatenated into the result tensor.
additionally the offsets of gradq, gradk and gradv in the result tensor are now memory aligned.
we also simplify the compute_backward part of flash_attn to use ggml_reshape instead of switching over the number of dimensions.
this needs a small change to ggml_reshape, removing the assertion of second argument to be contiguous.
since only the shape (ne) of the second reshape argument is of relevance, its memory layout (nb) is irrelevant -> it can very well be non-contiguous.
change test-grad0 to also test for repeated k/v in q.
this changes the rng and now results in small gradient differences in softmax. these solely come from using f16 exp table lookup in forward softmax: when temporarily changing softmax to use actual exp function, the reported gradient differences go away. gradient differences coming solely from f16 table lookup are acceptable.
added a note to explain this.
* add llama API functions to get grouped-query-attention n_head parameter 'n_head_kv'.
* fix finetune to support grouped-query-attention (using flash-attention)
note: ggml changes to ggml_out_prod are necessary to support grouped-query-attention without flash-attention.
* support broadcastable a in out_prod(a, b) and backward pass of broadcasting mul_mat(a, b)
* test broadcasting mul_mat backward pass
* decouple random number generator of each operation test
when changing one test the rng of others tests is not influenced anymore
* add comment briefly describing what ggml_repeat_back does
* simplify broadcasting mul_mat backward using ggml_repeat_back
* add cgraph evaluation order member and corresponding enum type
this controls in which order ggml_build_forward visits source nodes.
by default the nodes are visited left to right, i.e. src[0] first.
in some cases it is beneficial for ggml-alloc to visit in a different order.
two possible orders are supported: left-to-right (src[0] first) and right-to-left (src[0] last).
* measure max compute size for each cgraph eval order and use best order
this can bring huge memory savings:
e.g. codellama-34b with n_ctx=64, n_batch=1 goes from 92927.8mb down to 4627.6 MB
* remove unused command line options
* add sample start patterns and options to force new or by default resume last shuffling
* update shuffle rng state on reshuffle
* exclude known zero values from computations in flash_attn_f32 & flash_attn_back_f32
* remove probably unnecessary exception type flags from stringstream
* pass correct max number of tokens to llama_tokenize
* account for possible leading whitespace that will be added by tokenizer
e.g. '\t' will be tokenized by llama spm tokenizer to [29871, 12]
* use unrolled vec_mad in out_prod
y is vec_mad result vec.
x is vec_mad input vec.
v is vec_mad input scalar.
ggml_vec_mad_f32_unroll will internally loop over x and v with same y.
GGML_VEC_MAD_UNROLL is by default defined to 32.
This value is empirical optimized using performance test runs of out-prod in openllama-3b finetune with 256 context length and batch size 1. It gives 23% performance boost for out_prod.
Full measurements of out-prod runtime in ms:
unroll_xv unroll_yv
1 67014.643 87826.469
2 77117.552 89077.656
4 72091.311 109121.657
8 61077.543 88678.334
16 56914.67 79514.947
24 59024.595 84350.254
28 55952.446 83368.73
32 51476.658 85177.745
36 55973.792 84659.92
40 55139.616 93844.738
48 60736.392 93330.267
64 99856.878 116994.99
Second column is when unrollying yv instead of xv
* set lora_alpha to value of lora_r if it is not set via command line
otherwise only changing lora_r will change scaling of lora adapter used in prediction
* reshuffle original sample order instead of the previous shuffled order
otherwise resumed reshuffle will not result in same sample order
* block tiling for out-prod inspired by mul-mat
block sizes are empirically optimized
roughly doubles the flops of out-prod
* exclude some more known zero values from computations in flash_attn_f32 & flash_attn_back_f32
* add static keywords
* remove outcommented old code
* update train-text-from-scratch with tokenization, sample selection and shuffling from finetune
* remove lbfgs related train parameters
* move common train functions into common/train.[h|cpp]
* move train state into struct train_state
* move train data saving code into callback to unify code of opt_callback
train_params are still different in finetune and train-text-from-scratch, so it can't yet be moved to train.h|cpp
* move common train params into common/train
* move common opt_callback into common/train
* fix consume_common_train_arg
* save and load head_count_kv in lora checkpoints
* increase train_samples by used_samples instead of number of batches
on batch can contain more than one sample when option "fill_with_next_samples" is used
* fix usage of llama_tokenize
* remove static from process_escape since we need it exposed in header
* fix code formating of long function declarations
* fix condition in load_train_state_gguf
* use die("msg") instead of replace GGML_ASSERT(!"msg") or throw std::runtime_error("msg")
* fix saving and loading of training type
* remove terminating '\0' from tokenization
(llama_tokenize is now passed the string length instead of relying on terminating '\0')
* fix compile warnings
* fix compile warnings
* use new/delete for train_state instead of malloc/free
using malloc may result in seg faults when trying to assign string fields
* assert that sample_count > 0, avoiding division by zero
* fix frand to return value in interval [0,1)
* add train option "--sample-random-offsets"
Use samples beginning at random offsets.
The offset is only applied to the first sample in each batch context window.
Together with "--fill-with-next-samples" this may help for training endless text generation.
For example given a dataset containing samples "abcd", "ABCD", "0123".
With context size of 8 and options "--fill-with-next-samples", "--no-separate-with-eos", "--no-separate-with-bos",
the context windows of batches could only be filled with "abcdABCD", "ABCDabcd", "0123abcd", etc.
With "--sample-random-offsets" it can also be filled with "23abcdAB", "bcd0123A", etc.
* deduplicate code into function
* remove n_rot hparam, as it must always be hparam.n_embd_head()
* align code
* assert correct base model tensor shapes
* move some params from lora hparams into model hparams and load model params from gguf
this equalizes the model definition in finetune and text-from-scratch and removes the need for additional llama api functions to get model parameters
* remove now unnecessary llama API functions to get model params that where added by this PR
* train-text-from-scratch: automatically allocate model tensors, remove option '--mem-model N'
* train-text-from-scratch: automatically allocate opt context
* train-text-from-scratch: automatically allocate input tensors
* train-text-from-scratch: automatically allocate compute memory
* remove unused options and equalize train-text-from-scratch with finetune
* initialize opt->loss_after with zero
* add export-lora program
* remove trailing whitespace
* add export-lora build in Makefile
* remove unused struct tensor_info from export-lora
* add export-lora build dependency to llama
because it depends on common, which depends on llama
* update finetune README.md
* cancel optimization when specified number of epochs is completed
* improve handling of export-lora arguments
print errors and warnings when files could not be read or created
* Fix export-lora.cpp "not enough space in the context's memory pool" (#1)
* Fix export-lora.cpp "not enough space in the context's memory pool"
Without this patch, export-lora would sometimes error with "not enough space in the context's memory pool (needed 656784, available 656800)".
* increase required context size by 5*GGML_MEM_ALIGN instead of plain 16
---------
Co-authored-by: xaedes <xaedes@gmail.com>
* improve handling of not yet supported tensor types
---------
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
Co-authored-by: meatbag-18a <145869052+meatbag-18a@users.noreply.github.com>
2023-09-28 18:40:11 +00:00
printf ( " --lora-scaled FNAME S apply LoRA adapter with user defined scaling S (implies --no-mmap) \n " ) ;
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printf ( " --lora-base FNAME optional model to use as a base for the layers modified by the LoRA adapter \n " ) ;
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printf ( " --control-vector FNAME \n " ) ;
printf ( " add a control vector \n " ) ;
printf ( " --control-vector-scaled FNAME S \n " ) ;
printf ( " add a control vector with user defined scaling S \n " ) ;
printf ( " --control-vector-layer-range START END \n " ) ;
printf ( " layer range to apply the control vector(s) to, start and end inclusive \n " ) ;
2023-09-05 19:10:27 +00:00
printf ( " -m FNAME, --model FNAME \n " ) ;
2024-04-29 23:52:50 +00:00
printf ( " model path (default: models/$filename with filename from --hf-file or --model-url if set, otherwise %s) \n " , DEFAULT_MODEL_PATH ) ;
2023-09-05 19:10:27 +00:00
printf ( " -md FNAME, --model-draft FNAME \n " ) ;
2024-03-22 13:33:38 +00:00
printf ( " draft model for speculative decoding (default: unused) \n " ) ;
printf ( " -mu MODEL_URL, --model-url MODEL_URL \n " ) ;
printf ( " model download url (default: unused) \n " ) ;
printf ( " -hfr REPO, --hf-repo REPO \n " ) ;
printf ( " Hugging Face model repository (default: unused) \n " ) ;
printf ( " -hff FILE, --hf-file FILE \n " ) ;
printf ( " Hugging Face model file (default: unused) \n " ) ;
2023-09-05 19:10:27 +00:00
printf ( " -ld LOGDIR, --logdir LOGDIR \n " ) ;
printf ( " path under which to save YAML logs (no logging if unset) \n " ) ;
2024-03-23 00:24:36 +00:00
printf ( " -lcs FNAME, --lookup-cache-static FNAME \n " ) ;
printf ( " path to static lookup cache to use for lookup decoding (not updated by generation) \n " ) ;
printf ( " -lcd FNAME, --lookup-cache-dynamic FNAME \n " ) ;
printf ( " path to dynamic lookup cache to use for lookup decoding (updated by generation) \n " ) ;
2023-12-05 17:19:18 +00:00
printf ( " --override-kv KEY=TYPE:VALUE \n " ) ;
printf ( " advanced option to override model metadata by key. may be specified multiple times. \n " ) ;
2024-04-26 18:06:33 +00:00
printf ( " types: int, float, bool, str. example: --override-kv tokenizer.ggml.add_bos_token=bool:false \n " ) ;
2024-01-12 11:05:32 +00:00
printf ( " -ptc N, --print-token-count N \n " ) ;
2024-01-11 20:46:26 +00:00
printf ( " print token count every N tokens (default: %d) \n " , params . n_print ) ;
2024-04-26 16:39:58 +00:00
printf ( " --check-tensors check model tensor data for invalid values \n " ) ;
2023-09-05 19:10:27 +00:00
printf ( " \n " ) ;
2023-11-01 17:42:01 +00:00
# ifndef LOG_DISABLE_LOGS
log_print_usage ( ) ;
# endif // LOG_DISABLE_LOGS
2023-03-10 18:40:58 +00:00
}
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std : : string get_system_info ( const gpt_params & params ) {
std : : ostringstream os ;
os < < " system_info: n_threads = " < < params . n_threads ;
if ( params . n_threads_batch ! = - 1 ) {
os < < " (n_threads_batch = " < < params . n_threads_batch < < " ) " ;
}
os < < " / " < < std : : thread : : hardware_concurrency ( ) < < " | " < < llama_print_system_info ( ) ;
return os . str ( ) ;
}
2023-03-10 18:40:58 +00:00
std : : string gpt_random_prompt ( std : : mt19937 & rng ) {
const int r = rng ( ) % 10 ;
switch ( r ) {
case 0 : return " So " ;
case 1 : return " Once upon a time " ;
case 2 : return " When " ;
case 3 : return " The " ;
case 4 : return " After " ;
case 5 : return " If " ;
case 6 : return " import " ;
case 7 : return " He " ;
case 8 : return " She " ;
case 9 : return " They " ;
}
2023-09-28 21:41:44 +00:00
GGML_UNREACHABLE ( ) ;
2023-03-10 18:40:58 +00:00
}
2024-04-08 12:43:30 +00:00
// Validate if a filename is safe to use
// To validate a full path, split the path by the OS-specific path separator, and validate each part with this function
bool validate_file_name ( const std : : string & filename ) {
if ( ! filename . length ( ) ) {
// Empty filename invalid
return false ;
}
if ( filename . length ( ) > 255 ) {
// Limit at common largest possible filename on Linux filesystems
// to avoid unnecessary further validation
// (On systems with smaller limits it will be caught by the OS)
return false ;
}
std : : u32string filename_utf32 ;
try {
std : : wstring_convert < std : : codecvt_utf8 < char32_t > , char32_t > converter ;
filename_utf32 = converter . from_bytes ( filename ) ;
// If the reverse conversion mismatches, it means overlong UTF-8 sequences were used,
// or invalid encodings were encountered. Reject such attempts
std : : string filename_reencoded = converter . to_bytes ( filename_utf32 ) ;
if ( filename_reencoded ! = filename ) {
return false ;
}
} catch ( const std : : exception & ) {
return false ;
}
// Check for forbidden codepoints:
// - Control characters
// - Unicode equivalents of illegal characters
// - UTF-16 surrogate pairs
// - UTF-8 replacement character
// - Byte order mark (BOM)
// - Illegal characters: / \ : * ? " < > |
for ( char32_t c : filename_utf32 ) {
if ( c < = 0x1F // Control characters (C0)
| | c = = 0x7F // Control characters (DEL)
| | ( c > = 0x80 & & c < = 0x9F ) // Control characters (C1)
| | c = = 0xFF0E // Fullwidth Full Stop (period equivalent)
| | c = = 0x2215 // Division Slash (forward slash equivalent)
| | c = = 0x2216 // Set Minus (backslash equivalent)
| | ( c > = 0xD800 & & c < = 0xDFFF ) // UTF-16 surrogate pairs
| | c = = 0xFFFD // Replacement Character (UTF-8)
| | c = = 0xFEFF // Byte Order Mark (BOM)
| | c = = ' / ' | | c = = ' \\ ' | | c = = ' : ' | | c = = ' * ' // Illegal characters
| | c = = ' ? ' | | c = = ' " ' | | c = = ' < ' | | c = = ' > ' | | c = = ' | ' ) {
return false ;
}
}
// Reject any leading or trailing ' ', or any trailing '.', these are stripped on Windows and will cause a different filename
// Unicode and other whitespace is not affected, only 0x20 space
if ( filename . front ( ) = = ' ' | | filename . back ( ) = = ' ' | | filename . back ( ) = = ' . ' ) {
return false ;
}
// Reject any ".." (currently stricter than necessary, it should be fine to just check for == ".." instead)
if ( filename . find ( " .. " ) ! = std : : string : : npos ) {
return false ;
}
// Reject "."
if ( filename = = " . " ) {
return false ;
}
return true ;
}
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//
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// String utils
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//
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std : : vector < std : : string > string_split ( std : : string input , char separator ) {
std : : vector < std : : string > parts ;
size_t separator_pos = input . find ( separator ) ;
while ( separator_pos ! = std : : string : : npos ) {
std : : string part = input . substr ( 0 , separator_pos ) ;
parts . emplace_back ( part ) ;
input = input . substr ( separator_pos + 1 ) ;
separator_pos = input . find ( separator ) ;
}
parts . emplace_back ( input ) ;
return parts ;
}
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std : : string string_strip ( const std : : string & str ) {
size_t start = 0 ;
size_t end = str . size ( ) ;
while ( start < end & & std : : isspace ( str [ start ] ) ) {
start + + ;
}
while ( end > start & & std : : isspace ( str [ end - 1 ] ) ) {
end - - ;
}
return str . substr ( start , end - start ) ;
}
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std : : vector < llama_sampler_type > sampler_types_from_names ( const std : : vector < std : : string > & names , bool allow_alt_names ) {
std : : unordered_map < std : : string , llama_sampler_type > sampler_canonical_name_map {
{ " top_k " , llama_sampler_type : : TOP_K } ,
{ " top_p " , llama_sampler_type : : TOP_P } ,
{ " typical_p " , llama_sampler_type : : TYPICAL_P } ,
{ " min_p " , llama_sampler_type : : MIN_P } ,
{ " tfs_z " , llama_sampler_type : : TFS_Z } ,
{ " temperature " , llama_sampler_type : : TEMPERATURE }
} ;
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// since samplers names are written multiple ways
// make it ready for both system names and input names
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std : : unordered_map < std : : string , llama_sampler_type > sampler_alt_name_map {
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{ " top-k " , llama_sampler_type : : TOP_K } ,
{ " top-p " , llama_sampler_type : : TOP_P } ,
{ " nucleus " , llama_sampler_type : : TOP_P } ,
{ " typical-p " , llama_sampler_type : : TYPICAL_P } ,
{ " typical " , llama_sampler_type : : TYPICAL_P } ,
{ " min-p " , llama_sampler_type : : MIN_P } ,
{ " tfs-z " , llama_sampler_type : : TFS_Z } ,
{ " tfs " , llama_sampler_type : : TFS_Z } ,
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{ " temp " , llama_sampler_type : : TEMPERATURE }
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} ;
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std : : vector < llama_sampler_type > sampler_types ;
sampler_types . reserve ( names . size ( ) ) ;
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for ( const auto & name : names )
{
auto sampler_item = sampler_canonical_name_map . find ( name ) ;
if ( sampler_item ! = sampler_canonical_name_map . end ( ) )
{
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sampler_types . push_back ( sampler_item - > second ) ;
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}
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else
{
if ( allow_alt_names )
{
sampler_item = sampler_alt_name_map . find ( name ) ;
if ( sampler_item ! = sampler_alt_name_map . end ( ) )
{
sampler_types . push_back ( sampler_item - > second ) ;
}
}
}
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}
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return sampler_types ;
}
std : : vector < llama_sampler_type > sampler_types_from_chars ( const std : : string & names_string ) {
std : : unordered_map < char , llama_sampler_type > sampler_name_map {
{ ' k ' , llama_sampler_type : : TOP_K } ,
{ ' p ' , llama_sampler_type : : TOP_P } ,
{ ' y ' , llama_sampler_type : : TYPICAL_P } ,
{ ' m ' , llama_sampler_type : : MIN_P } ,
{ ' f ' , llama_sampler_type : : TFS_Z } ,
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{ ' t ' , llama_sampler_type : : TEMPERATURE }
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} ;
std : : vector < llama_sampler_type > sampler_types ;
sampler_types . reserve ( names_string . size ( ) ) ;
for ( const auto & c : names_string ) {
const auto sampler_item = sampler_name_map . find ( c ) ;
if ( sampler_item ! = sampler_name_map . end ( ) ) {
sampler_types . push_back ( sampler_item - > second ) ;
}
}
return sampler_types ;
}
std : : string sampler_type_to_name_string ( llama_sampler_type sampler_type ) {
switch ( sampler_type ) {
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case llama_sampler_type : : TOP_K : return " top_k " ;
case llama_sampler_type : : TFS_Z : return " tfs_z " ;
case llama_sampler_type : : TYPICAL_P : return " typical_p " ;
case llama_sampler_type : : TOP_P : return " top_p " ;
case llama_sampler_type : : MIN_P : return " min_p " ;
case llama_sampler_type : : TEMPERATURE : return " temperature " ;
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default : return " " ;
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}
}
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//
// Model utils
//
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struct llama_model_params llama_model_params_from_gpt_params ( const gpt_params & params ) {
auto mparams = llama_model_default_params ( ) ;
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if ( params . n_gpu_layers ! = - 1 ) {
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mparams . n_gpu_layers = params . n_gpu_layers ;
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}
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mparams . main_gpu = params . main_gpu ;
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mparams . split_mode = params . split_mode ;
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mparams . tensor_split = params . tensor_split ;
mparams . use_mmap = params . use_mmap ;
mparams . use_mlock = params . use_mlock ;
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mparams . check_tensors = params . check_tensors ;
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if ( params . kv_overrides . empty ( ) ) {
mparams . kv_overrides = NULL ;
} else {
GGML_ASSERT ( params . kv_overrides . back ( ) . key [ 0 ] = = 0 & & " KV overrides not terminated with empty key " ) ;
mparams . kv_overrides = params . kv_overrides . data ( ) ;
}
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return mparams ;
}
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static ggml_type kv_cache_type_from_str ( const std : : string & s ) {
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if ( s = = " f32 " ) {
return GGML_TYPE_F32 ;
}
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if ( s = = " f16 " ) {
return GGML_TYPE_F16 ;
}
if ( s = = " q8_0 " ) {
return GGML_TYPE_Q8_0 ;
}
if ( s = = " q4_0 " ) {
return GGML_TYPE_Q4_0 ;
}
if ( s = = " q4_1 " ) {
return GGML_TYPE_Q4_1 ;
}
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if ( s = = " iq4_nl " ) {
return GGML_TYPE_IQ4_NL ;
}
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if ( s = = " q5_0 " ) {
return GGML_TYPE_Q5_0 ;
}
if ( s = = " q5_1 " ) {
return GGML_TYPE_Q5_1 ;
}
throw std : : runtime_error ( " Invalid cache type: " + s ) ;
}
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struct llama_context_params llama_context_params_from_gpt_params ( const gpt_params & params ) {
auto cparams = llama_context_default_params ( ) ;
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cparams . n_ctx = params . n_ctx ;
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cparams . n_seq_max = params . n_parallel ;
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cparams . n_batch = params . n_batch ;
cparams . n_ubatch = params . n_ubatch ;
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cparams . n_threads = params . n_threads ;
cparams . n_threads_batch = params . n_threads_batch = = - 1 ? params . n_threads : params . n_threads_batch ;
cparams . seed = params . seed ;
cparams . logits_all = params . logits_all ;
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cparams . embeddings = params . embedding ;
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cparams . rope_scaling_type = params . rope_scaling_type ;
cparams . rope_freq_base = params . rope_freq_base ;
cparams . rope_freq_scale = params . rope_freq_scale ;
cparams . yarn_ext_factor = params . yarn_ext_factor ;
cparams . yarn_attn_factor = params . yarn_attn_factor ;
cparams . yarn_beta_fast = params . yarn_beta_fast ;
cparams . yarn_beta_slow = params . yarn_beta_slow ;
cparams . yarn_orig_ctx = params . yarn_orig_ctx ;
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cparams . pooling_type = params . pooling_type ;
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cparams . defrag_thold = params . defrag_thold ;
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cparams . cb_eval = params . cb_eval ;
cparams . cb_eval_user_data = params . cb_eval_user_data ;
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cparams . offload_kqv = ! params . no_kv_offload ;
ggml : add Flash Attention (#5021)
* ggml : add ggml_flash_attn_ext API
* ggml : fix GQA support in ggml_flash_attn_ext
* ggml : online attention (CPU)
* metal : initial implementation
* metal : f16 precision
* metal : reduce branches
* metal : specialize for head size
* wip : 8 rows per simd group
* wip : 4 rows per simd group
* wip : template for rows per warp
* metal : parallelize across KV size
* metal : parallel reduce across heads
* metal : efficient flash_attn_f16 implementation
* metal : avoid redundant loads of the attention
* metal : scale and mask in matrix form
* metal : fix comment
* llama : avoid ggml_cast, use F32 query
* metal : add parallel reduce version (disabled)
* metal : move output into local memory + optimize
- the result from each simdgroup now stays in the registers
- significantly reduced SRAM usage
- more efficient skipping of -INF blocks
- avoid simdgroup barrier in hot loop
- add comments
* metal : add tests, fix scaling, support C > 32
* metal : improve precision
* ggml : fix f16 mad
* metal : minor
* metal : support Q > 8
* tests : add ATTN tests
* metal : disable buffer allocation logs
* tests : more
* metal : faster inner loop for C == 32
* metal : fix array initialization
* tests : ifdef
* ggml : switch to padded F16 mask for ggml_soft_max, ggml_flash_attn_ext
* ggml : fix ggml_soft_max mask requirement
* cuda : fix soft_max to use correct mask size
* cuda : add flash_attn kernel (wip)
* metal : optimize softmax for C > 32
* metal : optimize softmax
* tests : minor fix
* cuda : avoid zeroing fragments
* tests : update dims
* cuda : fix __hisinf() result check
* cuda : avoid warp_reduce for smax
* cuda : use int instead of int64_t
Noticeably improves performance (thanks to Johannes)
* cuda : make loops use the same loop values
Thanks Johannes again for the tip
* cuda : unroll some of the loops
* cuda : avoid __hisinf branches
* cuda : use half2 in softmax
* cuda : switch to 1 warp for bs > 16
* cuda : speed-up reduce part of the kernel
* cuda : unroll Q*K^T loop
* cuda : fix -INF block check
* cuda : simplify softmax
* cuda : fix matrix names
* cuda : minor
* llama : adapt to F16 KQ_pos
* llama : adapt new models to F16 KQ_mask
* ggml : fix F16 store (ARM NEON)
* llama : fix type of KQ_mask and KQ_pos
* ggml : fix CPU soft_max
* tests : add hs=256
* cuda : fix build
* metal : improve perf via smaller int registers
* cuda : adapt soft_max to F16 mask and pos
* CUDA: faster FlashAttention, kernel for bs == 1
* 16 cols for Phi-2
* no vec for hs, no hs==256 ncols==32 for Volta
* adjust kernel selection logic
* 4 warps, 256 stride for all D
* no ncols == 64
* Multiple parallel blocks for batch size 1
* fix compile warnings
* fix excessive KQ_b loads
* fix cmake build
* fix KV cache padding, NaN from INFINITY (#6438)
* llama : flash_attn cparam + fix defrag
* server: support flash_attn param
* server: bench: enable flash_attn param
* CUDA: refactor host code, dyn. par. blocks
* fix flash_attn_vec_f16 race condition
* flush softmax exp below threshold to 0
* store temp KQ in registers
* Calculate KQ as FP32 if KQV has GGML_PREC_F32
* Add __hgt2_mask implementation for CUDA 11
* fix KQ FP32 precision fpr parallel_blocks > 1
* llama-bench : add -fa,--flash-attn arg
* metal : add BS=1 kernel for flash attention (#6508)
* metal : add BS=1 kernel for flash attention (wip)
* metal : support more than 1 warps
* metal : opts
* metal : opt
* metal : switch to parallel reduce
* metal : reduce registers
* metal : simplify
* metal : initial FA vec kernel
* metal : use F32 attention accumulators
* batched-bench : add fattn arg
* llama : simplify llama_build_kv_store
ggml-ci
* llama : adapt build_olmo to changes
* ggml : fix arm fp16 store on windows
* metal : clean-up
* metal : clean-up kernel code
* metal : minor
* tests : remove benchmarks
ggml-ci
* ggml : fix avx512 const correctness
ggml-ci
* ggml : fix soft_max with bias on CPU
ggml-ci
* common : print --flash-attn in help
* ggml : fix num dimensions in ggml_flash_attn_ext
* llama : force disable flash attention for incompatible models
* ggml : ggml_soft_max support F16/F32 mask/pos
ggml-ci
* cuda : uint -> uint32_t
* cuda : "constexpr dim3" -> "const dim3"
ggml-ci
* cuda : try to fix __hgt2_mask
ggml-ci
* ggml : add TODO's for F16/F32 mask/pos support in other backends
* llama : replace bool need_kq_pos with use_alibi
* llama : prep ALiBi support for BERT models
ggml-ci
* llama : fix n_batch requirements
ggml-ci
* cont
* server : add help for --flash-attn arg
* llama : disable FA for AMD
* tests : remove TMP_ATTN_BENCH
ggml-ci
* llama : support save/load state with FA enabled
ggml-ci
* ci : add CUDA save-load-state tests
ggml-ci
* llama : llama_kv_cache_clear zeroes data + fix save-load seq
ggml-ci
* llama : fix copy-paste errors, add TODO
* llama : disallow incompatible states
* llama : update llama_state_get_size after v_trans field
* metal : remove tmp log
* llama : add static reminder for llama_state_get_size
* metal : fix max nsg
ggml-ci
* ci : fix arg order
ggml-ci
---------
Co-authored-by: Johannes Gäßler <johannesg@5d6.de>
Co-authored-by: Pierrick HYMBERT <pierrick.hymbert@gmail.com>
2024-04-30 09:16:08 +00:00
cparams . flash_attn = params . flash_attn ;
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cparams . type_k = kv_cache_type_from_str ( params . cache_type_k ) ;
cparams . type_v = kv_cache_type_from_str ( params . cache_type_v ) ;
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return cparams ;
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}
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void llama_batch_clear ( struct llama_batch & batch ) {
batch . n_tokens = 0 ;
}
void llama_batch_add (
struct llama_batch & batch ,
llama_token id ,
llama_pos pos ,
const std : : vector < llama_seq_id > & seq_ids ,
bool logits ) {
batch . token [ batch . n_tokens ] = id ;
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batch . pos [ batch . n_tokens ] = pos ;
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batch . n_seq_id [ batch . n_tokens ] = seq_ids . size ( ) ;
for ( size_t i = 0 ; i < seq_ids . size ( ) ; + + i ) {
batch . seq_id [ batch . n_tokens ] [ i ] = seq_ids [ i ] ;
}
batch . logits [ batch . n_tokens ] = logits ;
batch . n_tokens + + ;
}
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# ifdef LLAMA_USE_CURL
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static bool starts_with ( const std : : string & str , const std : : string & prefix ) {
// While we wait for C++20's std::string::starts_with...
return str . rfind ( prefix , 0 ) = = 0 ;
}
static bool llama_download_file ( const std : : string & url , const std : : string & path ) {
// Initialize libcurl
std : : unique_ptr < CURL , decltype ( & curl_easy_cleanup ) > curl ( curl_easy_init ( ) , & curl_easy_cleanup ) ;
if ( ! curl ) {
fprintf ( stderr , " %s: error initializing libcurl \n " , __func__ ) ;
return false ;
}
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bool force_download = false ;
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// Set the URL, allow to follow http redirection
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curl_easy_setopt ( curl . get ( ) , CURLOPT_URL , url . c_str ( ) ) ;
curl_easy_setopt ( curl . get ( ) , CURLOPT_FOLLOWLOCATION , 1L ) ;
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# if defined(_WIN32)
// CURLSSLOPT_NATIVE_CA tells libcurl to use standard certificate store of
// operating system. Currently implemented under MS-Windows.
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curl_easy_setopt ( curl . get ( ) , CURLOPT_SSL_OPTIONS , CURLSSLOPT_NATIVE_CA ) ;
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# endif
// Check if the file already exists locally
struct stat model_file_info ;
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auto file_exists = ( stat ( path . c_str ( ) , & model_file_info ) = = 0 ) ;
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// If the file exists, check its JSON metadata companion file.
std : : string metadata_path = path + " .json " ;
nlohmann : : json metadata ;
std : : string etag ;
std : : string last_modified ;
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if ( file_exists ) {
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// Try and read the JSON metadata file (note: stream autoclosed upon exiting this block).
std : : ifstream metadata_in ( metadata_path ) ;
if ( metadata_in . good ( ) ) {
try {
metadata_in > > metadata ;
fprintf ( stderr , " %s: previous metadata file found %s: %s \n " , __func__ , metadata_path . c_str ( ) , metadata . dump ( ) . c_str ( ) ) ;
if ( metadata . contains ( " url " ) & & metadata [ " url " ] . is_string ( ) ) {
auto previous_url = metadata [ " url " ] . get < std : : string > ( ) ;
if ( previous_url ! = url ) {
fprintf ( stderr , " %s: Model URL mismatch: %s != %s \n " , __func__ , url . c_str ( ) , previous_url . c_str ( ) ) ;
return false ;
}
}
if ( metadata . contains ( " etag " ) & & metadata [ " etag " ] . is_string ( ) ) {
etag = metadata [ " etag " ] ;
}
if ( metadata . contains ( " lastModified " ) & & metadata [ " lastModified " ] . is_string ( ) ) {
last_modified = metadata [ " lastModified " ] ;
}
} catch ( const nlohmann : : json : : exception & e ) {
fprintf ( stderr , " %s: error reading metadata file %s: %s \n " , __func__ , metadata_path . c_str ( ) , e . what ( ) ) ;
return false ;
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}
}
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} else {
fprintf ( stderr , " %s: no previous model file found %s \n " , __func__ , path . c_str ( ) ) ;
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}
// Send a HEAD request to retrieve the etag and last-modified headers
struct llama_load_model_from_url_headers {
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std : : string etag ;
std : : string last_modified ;
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} ;
llama_load_model_from_url_headers headers ;
{
typedef size_t ( * CURLOPT_HEADERFUNCTION_PTR ) ( char * , size_t , size_t , void * ) ;
auto header_callback = [ ] ( char * buffer , size_t /*size*/ , size_t n_items , void * userdata ) - > size_t {
llama_load_model_from_url_headers * headers = ( llama_load_model_from_url_headers * ) userdata ;
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static std : : regex header_regex ( " ([^:]+): (.*) \r \n " ) ;
static std : : regex etag_regex ( " ETag " , std : : regex_constants : : icase ) ;
static std : : regex last_modified_regex ( " Last-Modified " , std : : regex_constants : : icase ) ;
std : : string header ( buffer , n_items ) ;
std : : smatch match ;
if ( std : : regex_match ( header , match , header_regex ) ) {
const std : : string & key = match [ 1 ] ;
const std : : string & value = match [ 2 ] ;
if ( std : : regex_match ( key , match , etag_regex ) ) {
headers - > etag = value ;
} else if ( std : : regex_match ( key , match , last_modified_regex ) ) {
headers - > last_modified = value ;
}
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}
return n_items ;
} ;
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curl_easy_setopt ( curl . get ( ) , CURLOPT_NOBODY , 1L ) ; // will trigger the HEAD verb
curl_easy_setopt ( curl . get ( ) , CURLOPT_NOPROGRESS , 1L ) ; // hide head request progress
curl_easy_setopt ( curl . get ( ) , CURLOPT_HEADERFUNCTION , static_cast < CURLOPT_HEADERFUNCTION_PTR > ( header_callback ) ) ;
curl_easy_setopt ( curl . get ( ) , CURLOPT_HEADERDATA , & headers ) ;
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CURLcode res = curl_easy_perform ( curl . get ( ) ) ;
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if ( res ! = CURLE_OK ) {
fprintf ( stderr , " %s: curl_easy_perform() failed: %s \n " , __func__ , curl_easy_strerror ( res ) ) ;
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return false ;
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}
long http_code = 0 ;
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curl_easy_getinfo ( curl . get ( ) , CURLINFO_RESPONSE_CODE , & http_code ) ;
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if ( http_code ! = 200 ) {
// HEAD not supported, we don't know if the file has changed
// force trigger downloading
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force_download = true ;
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fprintf ( stderr , " %s: HEAD invalid http status code received: %ld \n " , __func__ , http_code ) ;
}
}
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bool should_download = ! file_exists | | force_download ;
if ( ! should_download ) {
if ( ! etag . empty ( ) & & etag ! = headers . etag ) {
fprintf ( stderr , " %s: ETag header is different (%s != %s): triggering a new download \n " , __func__ , etag . c_str ( ) , headers . etag . c_str ( ) ) ;
should_download = true ;
} else if ( ! last_modified . empty ( ) & & last_modified ! = headers . last_modified ) {
fprintf ( stderr , " %s: Last-Modified header is different (%s != %s): triggering a new download \n " , __func__ , last_modified . c_str ( ) , headers . last_modified . c_str ( ) ) ;
should_download = true ;
}
}
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if ( should_download ) {
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std : : string path_temporary = path + " .downloadInProgress " ;
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if ( file_exists ) {
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fprintf ( stderr , " %s: deleting previous downloaded file: %s \n " , __func__ , path . c_str ( ) ) ;
if ( remove ( path . c_str ( ) ) ! = 0 ) {
fprintf ( stderr , " %s: unable to delete file: %s \n " , __func__ , path . c_str ( ) ) ;
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return false ;
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}
}
// Set the output file
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std : : unique_ptr < FILE , decltype ( & fclose ) > outfile ( fopen ( path_temporary . c_str ( ) , " wb " ) , fclose ) ;
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if ( ! outfile ) {
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fprintf ( stderr , " %s: error opening local file for writing: %s \n " , __func__ , path . c_str ( ) ) ;
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return false ;
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}
typedef size_t ( * CURLOPT_WRITEFUNCTION_PTR ) ( void * data , size_t size , size_t nmemb , void * fd ) ;
auto write_callback = [ ] ( void * data , size_t size , size_t nmemb , void * fd ) - > size_t {
return fwrite ( data , size , nmemb , ( FILE * ) fd ) ;
} ;
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curl_easy_setopt ( curl . get ( ) , CURLOPT_NOBODY , 0L ) ;
curl_easy_setopt ( curl . get ( ) , CURLOPT_WRITEFUNCTION , static_cast < CURLOPT_WRITEFUNCTION_PTR > ( write_callback ) ) ;
curl_easy_setopt ( curl . get ( ) , CURLOPT_WRITEDATA , outfile . get ( ) ) ;
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// display download progress
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curl_easy_setopt ( curl . get ( ) , CURLOPT_NOPROGRESS , 0L ) ;
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// helper function to hide password in URL
auto llama_download_hide_password_in_url = [ ] ( const std : : string & url ) - > std : : string {
std : : size_t protocol_pos = url . find ( " :// " ) ;
if ( protocol_pos = = std : : string : : npos ) {
return url ; // Malformed URL
}
std : : size_t at_pos = url . find ( ' @ ' , protocol_pos + 3 ) ;
if ( at_pos = = std : : string : : npos ) {
return url ; // No password in URL
}
return url . substr ( 0 , protocol_pos + 3 ) + " ******** " + url . substr ( at_pos ) ;
} ;
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// start the download
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fprintf ( stderr , " %s: downloading from %s to %s (server_etag:%s, server_last_modified:%s)... \n " , __func__ ,
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llama_download_hide_password_in_url ( url ) . c_str ( ) , path . c_str ( ) , headers . etag . c_str ( ) , headers . last_modified . c_str ( ) ) ;
auto res = curl_easy_perform ( curl . get ( ) ) ;
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if ( res ! = CURLE_OK ) {
fprintf ( stderr , " %s: curl_easy_perform() failed: %s \n " , __func__ , curl_easy_strerror ( res ) ) ;
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return false ;
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}
long http_code = 0 ;
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curl_easy_getinfo ( curl . get ( ) , CURLINFO_RESPONSE_CODE , & http_code ) ;
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if ( http_code < 200 | | http_code > = 400 ) {
fprintf ( stderr , " %s: invalid http status code received: %ld \n " , __func__ , http_code ) ;
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return false ;
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}
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// Causes file to be closed explicitly here before we rename it.
outfile . reset ( ) ;
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// Write the updated JSON metadata file.
metadata . update ( {
{ " url " , url } ,
{ " etag " , headers . etag } ,
{ " lastModified " , headers . last_modified }
} ) ;
std : : ofstream ( metadata_path ) < < metadata . dump ( 4 ) ;
fprintf ( stderr , " %s: file metadata saved: %s \n " , __func__ , metadata_path . c_str ( ) ) ;
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if ( rename ( path_temporary . c_str ( ) , path . c_str ( ) ) ! = 0 ) {
fprintf ( stderr , " %s: unable to rename file: %s to %s \n " , __func__ , path_temporary . c_str ( ) , path . c_str ( ) ) ;
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return false ;
}
}
return true ;
}
struct llama_model * llama_load_model_from_url (
const char * model_url ,
const char * path_model ,
const struct llama_model_params & params ) {
// Basic validation of the model_url
if ( ! model_url | | strlen ( model_url ) = = 0 ) {
fprintf ( stderr , " %s: invalid model_url \n " , __func__ ) ;
return NULL ;
}
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if ( ! llama_download_file ( model_url , path_model ) ) {
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return NULL ;
}
// check for additional GGUFs split to download
int n_split = 0 ;
{
struct gguf_init_params gguf_params = {
/*.no_alloc = */ true ,
/*.ctx = */ NULL ,
} ;
auto * ctx_gguf = gguf_init_from_file ( path_model , gguf_params ) ;
if ( ! ctx_gguf ) {
fprintf ( stderr , " \n %s: failed to load input GGUF from %s \n " , __func__ , path_model ) ;
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return NULL ;
}
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auto key_n_split = gguf_find_key ( ctx_gguf , LLM_KV_SPLIT_COUNT ) ;
if ( key_n_split > = 0 ) {
n_split = gguf_get_val_u16 ( ctx_gguf , key_n_split ) ;
}
gguf_free ( ctx_gguf ) ;
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}
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if ( n_split > 1 ) {
char split_prefix [ PATH_MAX ] = { 0 } ;
char split_url_prefix [ LLAMA_CURL_MAX_URL_LENGTH ] = { 0 } ;
// Verify the first split file format
// and extract split URL and PATH prefixes
{
if ( ! llama_split_prefix ( split_prefix , sizeof ( split_prefix ) , path_model , 0 , n_split ) ) {
fprintf ( stderr , " \n %s: unexpected model file name: %s "
" n_split=%d \n " , __func__ , path_model , n_split ) ;
return NULL ;
}
if ( ! llama_split_prefix ( split_url_prefix , sizeof ( split_url_prefix ) , model_url , 0 , n_split ) ) {
fprintf ( stderr , " \n %s: unexpected model url: %s "
" n_split=%d \n " , __func__ , model_url , n_split ) ;
return NULL ;
}
}
// Prepare download in parallel
std : : vector < std : : future < bool > > futures_download ;
for ( int idx = 1 ; idx < n_split ; idx + + ) {
futures_download . push_back ( std : : async ( std : : launch : : async , [ & split_prefix , & split_url_prefix , & n_split ] ( int download_idx ) - > bool {
char split_path [ PATH_MAX ] = { 0 } ;
llama_split_path ( split_path , sizeof ( split_path ) , split_prefix , download_idx , n_split ) ;
char split_url [ LLAMA_CURL_MAX_URL_LENGTH ] = { 0 } ;
llama_split_path ( split_url , sizeof ( split_url ) , split_url_prefix , download_idx , n_split ) ;
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return llama_download_file ( split_url , split_path ) ;
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} , idx ) ) ;
}
// Wait for all downloads to complete
for ( auto & f : futures_download ) {
if ( ! f . get ( ) ) {
return NULL ;
}
}
}
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return llama_load_model_from_file ( path_model , params ) ;
}
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struct llama_model * llama_load_model_from_hf (
const char * repo ,
const char * model ,
const char * path_model ,
const struct llama_model_params & params ) {
// construct hugging face model url:
//
// --repo ggml-org/models --file tinyllama-1.1b/ggml-model-f16.gguf
// https://huggingface.co/ggml-org/models/resolve/main/tinyllama-1.1b/ggml-model-f16.gguf
//
// --repo TheBloke/Mixtral-8x7B-v0.1-GGUF --file mixtral-8x7b-v0.1.Q4_K_M.gguf
// https://huggingface.co/TheBloke/Mixtral-8x7B-v0.1-GGUF/resolve/main/mixtral-8x7b-v0.1.Q4_K_M.gguf
//
std : : string model_url = " https://huggingface.co/ " ;
model_url + = repo ;
model_url + = " /resolve/main/ " ;
model_url + = model ;
return llama_load_model_from_url ( model_url . c_str ( ) , path_model , params ) ;
}
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# else
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struct llama_model * llama_load_model_from_url (
const char * /*model_url*/ ,
const char * /*path_model*/ ,
const struct llama_model_params & /*params*/ ) {
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fprintf ( stderr , " %s: llama.cpp built without libcurl, downloading from an url not supported. \n " , __func__ ) ;
return nullptr ;
}
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struct llama_model * llama_load_model_from_hf (
const char * /*repo*/ ,
const char * /*model*/ ,
const char * /*path_model*/ ,
const struct llama_model_params & /*params*/ ) {
fprintf ( stderr , " %s: llama.cpp built without libcurl, downloading from Hugging Face not supported. \n " , __func__ ) ;
return nullptr ;
}
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# endif // LLAMA_USE_CURL
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std : : tuple < struct llama_model * , struct llama_context * > llama_init_from_gpt_params ( gpt_params & params ) {
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auto mparams = llama_model_params_from_gpt_params ( params ) ;
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llama_model * model = nullptr ;
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if ( ! params . hf_repo . empty ( ) & & ! params . hf_file . empty ( ) ) {
model = llama_load_model_from_hf ( params . hf_repo . c_str ( ) , params . hf_file . c_str ( ) , params . model . c_str ( ) , mparams ) ;
} else if ( ! params . model_url . empty ( ) ) {
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model = llama_load_model_from_url ( params . model_url . c_str ( ) , params . model . c_str ( ) , mparams ) ;
} else {
model = llama_load_model_from_file ( params . model . c_str ( ) , mparams ) ;
}
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if ( model = = NULL ) {
fprintf ( stderr , " %s: error: failed to load model '%s' \n " , __func__ , params . model . c_str ( ) ) ;
return std : : make_tuple ( nullptr , nullptr ) ;
}
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auto cparams = llama_context_params_from_gpt_params ( params ) ;
llama_context * lctx = llama_new_context_with_model ( model , cparams ) ;
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if ( lctx = = NULL ) {
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fprintf ( stderr , " %s: error: failed to create context with model '%s' \n " , __func__ , params . model . c_str ( ) ) ;
llama_free_model ( model ) ;
return std : : make_tuple ( nullptr , nullptr ) ;
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}
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if ( ! params . control_vectors . empty ( ) ) {
if ( params . control_vector_layer_start < = 0 ) params . control_vector_layer_start = 1 ;
if ( params . control_vector_layer_end < = 0 ) params . control_vector_layer_end = llama_n_layer ( model ) ;
const auto cvec = llama_control_vector_load ( params . control_vectors ) ;
if ( cvec . n_embd = = - 1 ) {
llama_free ( lctx ) ;
llama_free_model ( model ) ;
return std : : make_tuple ( nullptr , nullptr ) ;
}
int err = llama_control_vector_apply ( lctx ,
cvec . data . data ( ) ,
cvec . data . size ( ) ,
cvec . n_embd ,
params . control_vector_layer_start ,
params . control_vector_layer_end ) ;
if ( err ) {
llama_free ( lctx ) ;
llama_free_model ( model ) ;
return std : : make_tuple ( nullptr , nullptr ) ;
}
}
train : finetune LORA (#2632)
* fix track_max_mem in forward_batch_wo_cache_flash_attn_train
* remove unnecessary Adam(W) optimizer tensors.
reduces optimizer memory overhead from 7*modelsize to 2*modelsize.
additionally allows to optimize models with more than 2^31 parameters by replacing int with int64_t.
bumps training checkpoint file version, but old checkpoints can still be read.
new version with less tensors is saved.
* add gradient clipping to AdamW
* Fix reset of unused g->nodes and g->grads to NULL
* implement gradient checkpointing for training
reduces memory overhead from O(n_layer) to O(sqrt(n_layer))
as explained in readme of https://github.com/cybertronai/gradient-checkpointing
* remove unused compute buffer 3
* add and use function ggml_build_backward_expand to avoid stack overflows with large maximum number of nodes
GGML_API void ggml_build_backward_expand(struct ggml_context * ctx, struct ggml_cgraph * gf, struct ggml_cgraph * gb, bool keep);
* change AdamW decay parameter to work like the torch AdamW decay parameter
It is now relative to Adam learning rate `alpha*sched`.
Before that it was relative to `sched` only.
`alpha` being the maximum learning rate and `sched` being a scaling parameter in [0..1]
* change default AdamW weight decay parameter used in training to 0.1 as used in nanoGPT
* change default AdamW weight decay parameter defined in ggml to 0.0, making Adam default instead of AdamW
btw: the default weight decay parameter for torch.optim.AdamW is 0.01
* bug fixes for cross entropy loss
ggml_cross_entropy_loss: sums where not correctly added in workload of each thread
ggml_cross_entropy_loss_back: simplify backward process, reducing numerical issues
guard usage of exp f16 lookup in cross entropy by #define GGML_CROSS_ENTROPY_EXP_FP16
cross entropy loss is only used once during training, but it is quite sensitive to numerical errors introduced by exp-f16-lookup.
so exp-f16-lookup for cross entropy loss is disabled by default, trading better gradients for very slightly worse runtime performance.
* fix test-grad0 for cross_entropy_loss
the second argument to cross_entropy_loss must sum up to 1 for each row
* fix test-grad0 for soft_max
dont use only sum as aggregation, because sum of softmax is always 1 -> finite differences should not work
instead use sum(log(soft_max()*(1-eps)+eps)); use eps to avoid log(0)
* improve finite differences of test-grad0 by using double instead of float
* change cross_entropy_loss to output average over all rows
this helps keeping the loss and gradients in a sane range
* improve gradient checkpointing
sqrt(n_layers) is only the best checkpoint step when mem size of checkpoints and mem size of layers are equal.
since layers require more memory than the single-tensor-checkpoint we use, the optimal values are compute different:
```
given: n, u, v
objective: minimize(a*u+b*v) where a*b=n, a>0, b>0
b=n/a
minimize(a*u+v*n/a)
diff(a*u+v*n/a, a) = u - (v*n/a)/a
diff(a*u+v*n/a, a) == 0
u - (v*n/a)/a == 0
u == v*n/(a*a)
u*a*a = v*n
a*a = v*n/u
a = sqrt(n*v/u)
```
this change results in more checkpoints, requiring less layers to store between checkpoints, overall improving memory usage.
* disable gradient checkpointing debug output
* llama : fix rope usage in train-text-from-scratch after ChatGLM change
* add more training parameters:
--enable-restart N Only for Adam optimizer. Enable restarts of cos-decay
--disable-restart N Only for Adam optimizer. Disable restarts of cos-decay
--opt-past N Number of optimization iterations to track for delta convergence test. Disabled when zero.
--opt-delta N Maximum delta for delta convergence test. Disabled when <= zero.
--opt-max-no-improvement N Maximum number of optimization iterations with no improvement. Disabled when <= zero.
--adam-epsf N AdamW epsilon for convergence test. Disabled when <= zero.
--adam-min-alpha N Adam minimum learning rate alpha, usually 0.1 * alpha
* replace memcpy with reshape operation so that the graph is not cut at the input
this makes it possible to store other values into the input tensor and then simply recompute the graph without rebuilding it
* remove unused function argument from get_example_targets_batch
* measure and print total training time
* add optimization callback to ggml_opt_resume_g
this callback is called before each iteration with custom data and pointer to learning schedule parameter (only used in Adam(W)).
can be used for dynamic learning schedule and setting input data for batches before each iteration
* use optimization callback in training
allows dynamic learning schedule and different batch data for each iteration without relying on low n_iter and high n_examples parameters
reduces runtime by avoiding restart of optimization function and improves training convergence by providing a different batch for each iteration
* add minimum number of tensor dimensions to apply weight decay (default 2)
this allows to not apply weight decay to bias parameters
* rename training parameter cos-decay-alpha to cos-decay-min and clarify that adam-min-alpha also applies to warmup
* fix increase of model.train_samples and model.train_tokens
now that each optimizer iteration gets its own batch we need to multiply by number of opt iterations
* change sampling parameters for prediction after training to defaults of common.h
and clarify what is context for prediction and what are generated tokens
* tighten abs error bounds for cross_entropy_loss in test-grad0
* add conditional compilation of using F16 exp in flash attention
uncomment `// #define GGML_FLASH_ATTN_EXP_FP16` to enable usage of f16 exp in flash attention
* tighten abs error bounds for flash_attn in test-grad0
* tighten abs error bounds for sqrt in test-grad0
* remove out-commented vectorized code of opt_adam
the vectorized code might be bit faster for low number of parameters, but it had a big memory usage overhead
* ggml : update ggml_rms_norm_back with configurable eps
* llama training : fix ggml_rms_norm_back calls to pass configurable eps
* remove trailing whitespace
* add train function using automatic gradient checkpointing backward pass and allocator
* in train function replace add_inplace by regular add
because using add_inplace seems to result in different gradients
* don't use allocate hash_map on context
because the context has no_alloc=True when using memory allocator resulting in NULL data pointers
* correctly clone reshape and permute operations by also cloning tensor->nb values
* fix variable name and add missing type cast
* terminate recursive tensor cloning when reaching tensor without src tensors
* correctly clone view tensors by setting data pointers
without this the checkpointing would only work when being used together with memory allocator
* fix variable names
* swap arguments to commutative ops to be the same as in `forward_batch_wo_cache_flash_attn`
* add input tensors as checkpoints
so that recursive tensor cloning of gradient checkpointing terminates on input tensors
* fix variable name and add missing boolean negation
* make sure some tensors are not reallocated by inserting new temporary nodes depending on them:
output and parameter gradient tensors need to be available at the end of the graph execution
parameter gradient tensors also need to be available before the graph execution because they are set to zero before each optimizer iteration
checkpoint tensors are allocated all together to reduce memory allocator fragmentation
afterwards, in addition to the temporary nodes, we also need to reset the temporary leafs
* fix ASSERT to work with zero layers
* add training options whether to use allocator and/or unified training function
* integrate unified training function which may use memory allocator
the unified training function also supports arguments whether to use flash attention and/or gradient checkpointing
* format name of cloned tensors with " (clone)" suffix
* set names for tensors in unified train function for easier debugging
* allocate graph on context using ggml_new_graph
* remove handwritten training functions
* remove unused training parameters "use_scratch" and "use_unified"
* remove trailing whitespace
* remove unused train params: mem_compute1_gb & mem_compute2_gb
mem_compute_gb is used for compute when automatic memory allocator is not enabled, otherwise it can be very small to only hold the tensor definitions
mem_compute0_gb is used for automatic memory allocator (as long as measurement of max required size is not implemented)
* remove unused forward_batch function
* add debug asserts in ggml_allocr_alloc to some common pitfalls when using this function directly
* only use ggml_allocr_alloc when tensor has NULL data and is no view
* fix test when to create temporary backward graph
temporary backward graph is only necessary when using checkpointing
* fix memory "leak" in optimizers
each iteration a new cplan with new memory for work data was allocated.
now cplan creation only happens at the start of optimization, with each iteration reusing the cplan and its work data.
* reverse order of for loop in ggml_build_backward_expand to save memory when using gradient checkpointing and allocator
with this loop order gradient checkpointing with allocator on 16 layer model saves 13% memory; 2 layer memory it saves 2% memory.
the computation results are the same
* add API functions to access llama model tensors
* add stub example for finetuning, based on train-text-from-scratch
* move and remove code
* add API functions to access remaining model parameters:
mult, head and rot
* first draft for LORA finetune training
* remove const model and layer arguments in API functions for accessing model tensors
* bug fixes to make finetune compile
automatic allocator does not work yet
* add debug prints for training memory improvements
* fix names of lora tensors
* avoid stack overflow resulting from big ggml_cgraph
replace stack allocation and ggml_build_forward by ggml_new_graph in combination with ggml_build_forward_expand
* replace llama API functions to get model tensors by one function to get model tensor by name
LLAMA_API struct ggml_tensor * llama_get_model_tensor(struct llama_model * model, const char * name);
* remove unused call to not existing llama_get_layer_from_model
* implement ggml_compute_forward_out_prod_q_f32
* remove trailing whitespace
* add lora finetune support on quantized base model tensors
* add ggml_add_cast API function
this function works like ggml_add, but accepts a data type for the resulting tensor.
only supported for quantized src0 input.
* use ggml_add_cast in finetuning
lora-applied weights will now have data type F32, which improves gradients when finetuning quantized base models
* bug fix: actually use result type passed to ggml_add_cast
* make sure base model tensors data cannot be used in viewable operations
memory allocator would try to make lora application inplace on base model tensors.
since those are memory mapped this will result in memory access violations
* fix bug in ggml_out_prod which resulted in wrong n_dims of result tensors
* avoid keeping in memory ALL of the gradients
The problem here stems from ggml_graph_reset. This function is called in the optimization function, before each graph computation, to reset the gradients to zero. This required a unique memory slot for each gradient: allocating memory from a previosly freed memory location might lead to non-zero input gradients.
During ggml_compute_backward the gradients are build stepwise by adding or substracting new values, starting from a OP_NONE tensor which needs to contain zero-values. This requires the graph reset.
To avoid this I now remember in ggml_build_backward_expand the original OP_NONE gradient tensors in a hash table, which is passed to ggml_compute_backward. There instead of using add (or sub or similar) I test whether the existing gradient to be changed is a zero-valued-tensor by looking up its existence in the hash table. When it is such a zero-tensor it will not be modified, but replaced by the value to be added, otherwise the regular add (not inplace, allocator will take care of this) will be used. This way none of those zero-tensor values will be necessary in the final backward graph and more importantly they won't need a unique memory slot, just to make them zero.
* remove trailing whitespace
* remove debug prints and function to compute tensor data hash
* improve optimization iteration prints
* adjust maximal values to support finetuning 3B models
* change default finetune params lora_r and lora_alpha to match the n_rank parameters of 4
* bug fix: make sure finetune input gradient is allocated at begin and kept until end
* remove unnecessary src tensor from ggml_get_rows_back
we don't need data of src[2] for computation, only to setup the correct output shape.
remove dependency on src[2], so that allocator can work more freely.
the computational graph is still completely determined, because the output shape is naturally included.
this is similar to how ggml_reshape does it.
* remove unnecessary src tensor from ggml_repeat & ggml_repeat_back
we don't need data of src[1] for computation, only to setup the correct output shape.
remove dependency on src[1], so that allocator can work more freely.
the computational graph is still completely determined, because the output shape is naturally included
* resolve todo
allocator will only make it inplace when they are of the same type
* mixing multiple LORA adapters is now possible
pass more than one '--lora FNAME' argument to apply more than one LORA.
use '--lora-scaled FNAME S' when you want to specify a user-defined scale for an adapter.
* add option to save finetune output every N iterations
* also save latest finetune output with ITERATION="LATEST" and print where files are saved
saving with LATEST makes it easier to resume training from the latest checkpoint
the string "LATEST" can be configured with command line option "--fn-latest STR"
* update checkpoint train stats before saving via "--save-every"
* add command line option `--rank-wo N` for rank of wo tensor
* update finetune README
* fix dump_non_result_info_yaml to output multiple lora adapters
* bug fix: replace GGML_TYPE_SIZE[t] by ggml_type_size(t)
* replace llama_n_mult by llama_n_ff
* finetune bug fixes to compile with merged in code from master
* remove prediction related code to reduce duplicated code with main
use main instead
* reduce large memory overhead in train-text-from-scratch
all gradients had to be pinned so that graph_reset works correctly.
this is no longer necessary with the changes to ggml_compute_backward introduced in this PR.
* add comment explaining why finetune checkpoints are allocated in one block
* make default value of float member a float literal
* handle rms_norm and rope parameters the same as in train-text-from-scratch
* remove unused code
* remove vocab related code as it is unnecessary
* add LLM_KV_TRAINING_TYPE to train-text-from-scratch checkpoints
so that they can be differentiated from lora finetune checkpoints
* add gguf constants and load/save functions from train-text-from-scratch
* add load & save lora finetune checkpoints via gguf
* add python script to convert old finetune checkpoint files to gguf
* remove old checkpoint save & load code
* remove code to print data checksums which was used to verify correctness of new gguf code
* omit tokenization when training is disabled, only save llama lora adapter
training can be disabled by passing '-n 0' to finetune
* remove trailing whitespace
* update README.md
* implement ggml_compute_forward_repeat_f16
* avoid stack overflow of large cgraphs in test-grad0
* add ggml API functions ggml_unravel_index, ggml_get_i32_nd and its analogs for set and for f32
ggml_get_i32_1d, ggml_set_i32_1d, ggml_get_f32_1d, ggml_set_f32_1d now support non-contiguous tensors.
in case of non-contiguous tensor, the 1d index is unraveled into a multi index using ggml_unravel_index to be passed to '_nd' function equivalent.
this fixes a bug in test-grad0 which happens due to ggml_build_backward not building purely contiguous tensors anymore
* increase test-grad0 context mem size to accommodate for bigger cgraph
* add sanity check to ggml_compute_backward, asserting the correct shape of gradients
* fix ggml_acc_or_set to return tensor of correct shape
* remove unused 'inplace' argument from ggml_compute_backward function
inplace operations to add gradients are no longer created by ggml_compute_backward
use allocator to automatically make inplace operations
* add missing argument 'int i0' to ggml_get_i32_nd & ggml_set_i32_nd header declarations
* fix error message in ggml_allocr_alloc to display actual max_avail
* fix check_gradient
ggml_build_backward_expand was previously replaced by ggml_build_backward, but the assignment of forward graph to backward graph missing
* use tensor->view_src instead of ggml_is_view and get_view_source
* move gradient checkpointing code into ggml, new API function:
// build gradient checkpointing backward graph gb for gf using provided checkpoints
// gb_tmp will contain original backward graph with rewritten backward process nodes,
// but without the second forward pass nodes.
GGML_API void ggml_build_backward_gradient_checkpointing(
struct ggml_context * ctx,
struct ggml_cgraph * gf,
struct ggml_cgraph * gb,
struct ggml_cgraph * gb_tmp,
struct ggml_tensor * * checkpoints,
int n_checkpoints);
* replace custom data getters and setters by ggml functions
* train-text-from-scratch can train (full finetune) gguf models
just pass the gguf model via `--checkpoint-in FN`.
after this, to continue training, pass the generated checkpoint instead of the original gguf model.
tested with smaller models, bigger models may exceed available memory.
use (LORA) finetune for those.
* remove trailing whitespace
* add option to save train-text-from-scratch output every N iterations
* update README.md
* fix warnings
* fix warnings
* remove finetune option to disable allocator
the allocator should always be used.
by making sure that it is always used it gets easier to implement automatic memory requirements computation
* add tensor checkpoints only when gradient checkpointing is enabled
* initialize opt ggml context if none was provided
* add ggml-alloc API function 'ggml_allocr_max_size' to get max size of alloc
GGML_API size_t ggml_allocr_max_size(struct ggml_allocr * alloc);
* finetune: automatically allocate all memory and changes to command line options
remove '--n_examples N' parameter, as it no longer makes sense to call optimization process multiple times in a loop.
add '--only_write_lora' command line option: will skip tokenization and training, to only write a llama.cpp comptabile LORA adapter.
remove memory buffer related command line options.
improve iteration console output.
* add finetune to Makefile
* update README.md
* print time per iteration and estimate remaining time
* increase measured alloc size by tensor_alignment
ggml_allocr_reset will reduce the given size by up to tensor_alignment-1
* fix README.md
* add some more allocator debug prints
* bug fix, probably solves the 'ggml_allocr_alloc: not enough space in the buffer' issue
* revert last commit
"bug fix, probably solves the 'ggml_allocr_alloc: not enough space in the buffer' issue"
"alloc was freeing an externally allocated tensor, because it calculated the end of allocator memory as alloc->data + alloc->max_size instead of alloc->data + alloc->size."
This is intentional to reduce the risk of freeing external tensors when measuring. Unless max_size is not properly calculated, I don't see why this is an issue.
* remove unnecessary "0x" before "%p" output
* move measurement memory segment to upper region of the address space
* update README.md
* fix printf format warnings
* add missing gguf_free in load_checkpoint_lora_file
* load default rms_norm and rope parameters from base model
* add gradient accumulation
specify number accumulation steps with '--grad-acc N'.
this will simulate a bigger batch size of grad_acc*batch.
* fix tracking of train_samples and train_tokens
* build : fix compile warnings
* ggml : fix L-BFGS linesearch loop
* improve finetune time measurement
fix printf warnings on system where int64_t is (long int).
change time datatypes to double because values get big with long training times.
exclude file saving from time measurement.
converge faster to actual time per iteration by removing very small first duration before first iteration was performed.
fix bug in output of total training time, the reported value was 1000 times to small.
* specify default lora rank with '--lora-r N'
'--lora-r N' will specify default rank for all tensors
'--rank-wq N', etc. will override this default rank for specific tensor types.
* fix gradient accumulation bug where the same batch was used for each microstep
* fix gradient accumulation bug where the same batch was used for each microstep
* support grouped-query-attention in ggml_flash_attn and ggml_flash_attn_back
k and v can now be repeated in q along ne[2]
in forward pass just use modulo to compute k and v indices, like ik2 = iq2 % nek2.
in backard pass this won't work as easy, because multiple threads will compete to accumulate to the same k->grad[:,ik1,ik2,ik3] and v->grad[:,iv1,iv2,iv3].
so we change the parallelization over q rows to be over k rows. this ensures non-overlapping (ik2,ik3) across threads.
in each thread we then iterate over the number of repetitions of k/v in q to compute iq2 as iq2 = ik2 + irep*nek2.
since ne2 is not the same for q,k and v we also change how the gradients are concatenated into the result tensor.
additionally the offsets of gradq, gradk and gradv in the result tensor are now memory aligned.
we also simplify the compute_backward part of flash_attn to use ggml_reshape instead of switching over the number of dimensions.
this needs a small change to ggml_reshape, removing the assertion of second argument to be contiguous.
since only the shape (ne) of the second reshape argument is of relevance, its memory layout (nb) is irrelevant -> it can very well be non-contiguous.
change test-grad0 to also test for repeated k/v in q.
this changes the rng and now results in small gradient differences in softmax. these solely come from using f16 exp table lookup in forward softmax: when temporarily changing softmax to use actual exp function, the reported gradient differences go away. gradient differences coming solely from f16 table lookup are acceptable.
added a note to explain this.
* add llama API functions to get grouped-query-attention n_head parameter 'n_head_kv'.
* fix finetune to support grouped-query-attention (using flash-attention)
note: ggml changes to ggml_out_prod are necessary to support grouped-query-attention without flash-attention.
* support broadcastable a in out_prod(a, b) and backward pass of broadcasting mul_mat(a, b)
* test broadcasting mul_mat backward pass
* decouple random number generator of each operation test
when changing one test the rng of others tests is not influenced anymore
* add comment briefly describing what ggml_repeat_back does
* simplify broadcasting mul_mat backward using ggml_repeat_back
* add cgraph evaluation order member and corresponding enum type
this controls in which order ggml_build_forward visits source nodes.
by default the nodes are visited left to right, i.e. src[0] first.
in some cases it is beneficial for ggml-alloc to visit in a different order.
two possible orders are supported: left-to-right (src[0] first) and right-to-left (src[0] last).
* measure max compute size for each cgraph eval order and use best order
this can bring huge memory savings:
e.g. codellama-34b with n_ctx=64, n_batch=1 goes from 92927.8mb down to 4627.6 MB
* remove unused command line options
* add sample start patterns and options to force new or by default resume last shuffling
* update shuffle rng state on reshuffle
* exclude known zero values from computations in flash_attn_f32 & flash_attn_back_f32
* remove probably unnecessary exception type flags from stringstream
* pass correct max number of tokens to llama_tokenize
* account for possible leading whitespace that will be added by tokenizer
e.g. '\t' will be tokenized by llama spm tokenizer to [29871, 12]
* use unrolled vec_mad in out_prod
y is vec_mad result vec.
x is vec_mad input vec.
v is vec_mad input scalar.
ggml_vec_mad_f32_unroll will internally loop over x and v with same y.
GGML_VEC_MAD_UNROLL is by default defined to 32.
This value is empirical optimized using performance test runs of out-prod in openllama-3b finetune with 256 context length and batch size 1. It gives 23% performance boost for out_prod.
Full measurements of out-prod runtime in ms:
unroll_xv unroll_yv
1 67014.643 87826.469
2 77117.552 89077.656
4 72091.311 109121.657
8 61077.543 88678.334
16 56914.67 79514.947
24 59024.595 84350.254
28 55952.446 83368.73
32 51476.658 85177.745
36 55973.792 84659.92
40 55139.616 93844.738
48 60736.392 93330.267
64 99856.878 116994.99
Second column is when unrollying yv instead of xv
* set lora_alpha to value of lora_r if it is not set via command line
otherwise only changing lora_r will change scaling of lora adapter used in prediction
* reshuffle original sample order instead of the previous shuffled order
otherwise resumed reshuffle will not result in same sample order
* block tiling for out-prod inspired by mul-mat
block sizes are empirically optimized
roughly doubles the flops of out-prod
* exclude some more known zero values from computations in flash_attn_f32 & flash_attn_back_f32
* add static keywords
* remove outcommented old code
* update train-text-from-scratch with tokenization, sample selection and shuffling from finetune
* remove lbfgs related train parameters
* move common train functions into common/train.[h|cpp]
* move train state into struct train_state
* move train data saving code into callback to unify code of opt_callback
train_params are still different in finetune and train-text-from-scratch, so it can't yet be moved to train.h|cpp
* move common train params into common/train
* move common opt_callback into common/train
* fix consume_common_train_arg
* save and load head_count_kv in lora checkpoints
* increase train_samples by used_samples instead of number of batches
on batch can contain more than one sample when option "fill_with_next_samples" is used
* fix usage of llama_tokenize
* remove static from process_escape since we need it exposed in header
* fix code formating of long function declarations
* fix condition in load_train_state_gguf
* use die("msg") instead of replace GGML_ASSERT(!"msg") or throw std::runtime_error("msg")
* fix saving and loading of training type
* remove terminating '\0' from tokenization
(llama_tokenize is now passed the string length instead of relying on terminating '\0')
* fix compile warnings
* fix compile warnings
* use new/delete for train_state instead of malloc/free
using malloc may result in seg faults when trying to assign string fields
* assert that sample_count > 0, avoiding division by zero
* fix frand to return value in interval [0,1)
* add train option "--sample-random-offsets"
Use samples beginning at random offsets.
The offset is only applied to the first sample in each batch context window.
Together with "--fill-with-next-samples" this may help for training endless text generation.
For example given a dataset containing samples "abcd", "ABCD", "0123".
With context size of 8 and options "--fill-with-next-samples", "--no-separate-with-eos", "--no-separate-with-bos",
the context windows of batches could only be filled with "abcdABCD", "ABCDabcd", "0123abcd", etc.
With "--sample-random-offsets" it can also be filled with "23abcdAB", "bcd0123A", etc.
* deduplicate code into function
* remove n_rot hparam, as it must always be hparam.n_embd_head()
* align code
* assert correct base model tensor shapes
* move some params from lora hparams into model hparams and load model params from gguf
this equalizes the model definition in finetune and text-from-scratch and removes the need for additional llama api functions to get model parameters
* remove now unnecessary llama API functions to get model params that where added by this PR
* train-text-from-scratch: automatically allocate model tensors, remove option '--mem-model N'
* train-text-from-scratch: automatically allocate opt context
* train-text-from-scratch: automatically allocate input tensors
* train-text-from-scratch: automatically allocate compute memory
* remove unused options and equalize train-text-from-scratch with finetune
* initialize opt->loss_after with zero
* add export-lora program
* remove trailing whitespace
* add export-lora build in Makefile
* remove unused struct tensor_info from export-lora
* add export-lora build dependency to llama
because it depends on common, which depends on llama
* update finetune README.md
* cancel optimization when specified number of epochs is completed
* improve handling of export-lora arguments
print errors and warnings when files could not be read or created
* Fix export-lora.cpp "not enough space in the context's memory pool" (#1)
* Fix export-lora.cpp "not enough space in the context's memory pool"
Without this patch, export-lora would sometimes error with "not enough space in the context's memory pool (needed 656784, available 656800)".
* increase required context size by 5*GGML_MEM_ALIGN instead of plain 16
---------
Co-authored-by: xaedes <xaedes@gmail.com>
* improve handling of not yet supported tensor types
---------
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
Co-authored-by: meatbag-18a <145869052+meatbag-18a@users.noreply.github.com>
2023-09-28 18:40:11 +00:00
for ( unsigned int i = 0 ; i < params . lora_adapter . size ( ) ; + + i ) {
2024-03-22 13:33:38 +00:00
const std : : string & lora_adapter = std : : get < 0 > ( params . lora_adapter [ i ] ) ;
train : finetune LORA (#2632)
* fix track_max_mem in forward_batch_wo_cache_flash_attn_train
* remove unnecessary Adam(W) optimizer tensors.
reduces optimizer memory overhead from 7*modelsize to 2*modelsize.
additionally allows to optimize models with more than 2^31 parameters by replacing int with int64_t.
bumps training checkpoint file version, but old checkpoints can still be read.
new version with less tensors is saved.
* add gradient clipping to AdamW
* Fix reset of unused g->nodes and g->grads to NULL
* implement gradient checkpointing for training
reduces memory overhead from O(n_layer) to O(sqrt(n_layer))
as explained in readme of https://github.com/cybertronai/gradient-checkpointing
* remove unused compute buffer 3
* add and use function ggml_build_backward_expand to avoid stack overflows with large maximum number of nodes
GGML_API void ggml_build_backward_expand(struct ggml_context * ctx, struct ggml_cgraph * gf, struct ggml_cgraph * gb, bool keep);
* change AdamW decay parameter to work like the torch AdamW decay parameter
It is now relative to Adam learning rate `alpha*sched`.
Before that it was relative to `sched` only.
`alpha` being the maximum learning rate and `sched` being a scaling parameter in [0..1]
* change default AdamW weight decay parameter used in training to 0.1 as used in nanoGPT
* change default AdamW weight decay parameter defined in ggml to 0.0, making Adam default instead of AdamW
btw: the default weight decay parameter for torch.optim.AdamW is 0.01
* bug fixes for cross entropy loss
ggml_cross_entropy_loss: sums where not correctly added in workload of each thread
ggml_cross_entropy_loss_back: simplify backward process, reducing numerical issues
guard usage of exp f16 lookup in cross entropy by #define GGML_CROSS_ENTROPY_EXP_FP16
cross entropy loss is only used once during training, but it is quite sensitive to numerical errors introduced by exp-f16-lookup.
so exp-f16-lookup for cross entropy loss is disabled by default, trading better gradients for very slightly worse runtime performance.
* fix test-grad0 for cross_entropy_loss
the second argument to cross_entropy_loss must sum up to 1 for each row
* fix test-grad0 for soft_max
dont use only sum as aggregation, because sum of softmax is always 1 -> finite differences should not work
instead use sum(log(soft_max()*(1-eps)+eps)); use eps to avoid log(0)
* improve finite differences of test-grad0 by using double instead of float
* change cross_entropy_loss to output average over all rows
this helps keeping the loss and gradients in a sane range
* improve gradient checkpointing
sqrt(n_layers) is only the best checkpoint step when mem size of checkpoints and mem size of layers are equal.
since layers require more memory than the single-tensor-checkpoint we use, the optimal values are compute different:
```
given: n, u, v
objective: minimize(a*u+b*v) where a*b=n, a>0, b>0
b=n/a
minimize(a*u+v*n/a)
diff(a*u+v*n/a, a) = u - (v*n/a)/a
diff(a*u+v*n/a, a) == 0
u - (v*n/a)/a == 0
u == v*n/(a*a)
u*a*a = v*n
a*a = v*n/u
a = sqrt(n*v/u)
```
this change results in more checkpoints, requiring less layers to store between checkpoints, overall improving memory usage.
* disable gradient checkpointing debug output
* llama : fix rope usage in train-text-from-scratch after ChatGLM change
* add more training parameters:
--enable-restart N Only for Adam optimizer. Enable restarts of cos-decay
--disable-restart N Only for Adam optimizer. Disable restarts of cos-decay
--opt-past N Number of optimization iterations to track for delta convergence test. Disabled when zero.
--opt-delta N Maximum delta for delta convergence test. Disabled when <= zero.
--opt-max-no-improvement N Maximum number of optimization iterations with no improvement. Disabled when <= zero.
--adam-epsf N AdamW epsilon for convergence test. Disabled when <= zero.
--adam-min-alpha N Adam minimum learning rate alpha, usually 0.1 * alpha
* replace memcpy with reshape operation so that the graph is not cut at the input
this makes it possible to store other values into the input tensor and then simply recompute the graph without rebuilding it
* remove unused function argument from get_example_targets_batch
* measure and print total training time
* add optimization callback to ggml_opt_resume_g
this callback is called before each iteration with custom data and pointer to learning schedule parameter (only used in Adam(W)).
can be used for dynamic learning schedule and setting input data for batches before each iteration
* use optimization callback in training
allows dynamic learning schedule and different batch data for each iteration without relying on low n_iter and high n_examples parameters
reduces runtime by avoiding restart of optimization function and improves training convergence by providing a different batch for each iteration
* add minimum number of tensor dimensions to apply weight decay (default 2)
this allows to not apply weight decay to bias parameters
* rename training parameter cos-decay-alpha to cos-decay-min and clarify that adam-min-alpha also applies to warmup
* fix increase of model.train_samples and model.train_tokens
now that each optimizer iteration gets its own batch we need to multiply by number of opt iterations
* change sampling parameters for prediction after training to defaults of common.h
and clarify what is context for prediction and what are generated tokens
* tighten abs error bounds for cross_entropy_loss in test-grad0
* add conditional compilation of using F16 exp in flash attention
uncomment `// #define GGML_FLASH_ATTN_EXP_FP16` to enable usage of f16 exp in flash attention
* tighten abs error bounds for flash_attn in test-grad0
* tighten abs error bounds for sqrt in test-grad0
* remove out-commented vectorized code of opt_adam
the vectorized code might be bit faster for low number of parameters, but it had a big memory usage overhead
* ggml : update ggml_rms_norm_back with configurable eps
* llama training : fix ggml_rms_norm_back calls to pass configurable eps
* remove trailing whitespace
* add train function using automatic gradient checkpointing backward pass and allocator
* in train function replace add_inplace by regular add
because using add_inplace seems to result in different gradients
* don't use allocate hash_map on context
because the context has no_alloc=True when using memory allocator resulting in NULL data pointers
* correctly clone reshape and permute operations by also cloning tensor->nb values
* fix variable name and add missing type cast
* terminate recursive tensor cloning when reaching tensor without src tensors
* correctly clone view tensors by setting data pointers
without this the checkpointing would only work when being used together with memory allocator
* fix variable names
* swap arguments to commutative ops to be the same as in `forward_batch_wo_cache_flash_attn`
* add input tensors as checkpoints
so that recursive tensor cloning of gradient checkpointing terminates on input tensors
* fix variable name and add missing boolean negation
* make sure some tensors are not reallocated by inserting new temporary nodes depending on them:
output and parameter gradient tensors need to be available at the end of the graph execution
parameter gradient tensors also need to be available before the graph execution because they are set to zero before each optimizer iteration
checkpoint tensors are allocated all together to reduce memory allocator fragmentation
afterwards, in addition to the temporary nodes, we also need to reset the temporary leafs
* fix ASSERT to work with zero layers
* add training options whether to use allocator and/or unified training function
* integrate unified training function which may use memory allocator
the unified training function also supports arguments whether to use flash attention and/or gradient checkpointing
* format name of cloned tensors with " (clone)" suffix
* set names for tensors in unified train function for easier debugging
* allocate graph on context using ggml_new_graph
* remove handwritten training functions
* remove unused training parameters "use_scratch" and "use_unified"
* remove trailing whitespace
* remove unused train params: mem_compute1_gb & mem_compute2_gb
mem_compute_gb is used for compute when automatic memory allocator is not enabled, otherwise it can be very small to only hold the tensor definitions
mem_compute0_gb is used for automatic memory allocator (as long as measurement of max required size is not implemented)
* remove unused forward_batch function
* add debug asserts in ggml_allocr_alloc to some common pitfalls when using this function directly
* only use ggml_allocr_alloc when tensor has NULL data and is no view
* fix test when to create temporary backward graph
temporary backward graph is only necessary when using checkpointing
* fix memory "leak" in optimizers
each iteration a new cplan with new memory for work data was allocated.
now cplan creation only happens at the start of optimization, with each iteration reusing the cplan and its work data.
* reverse order of for loop in ggml_build_backward_expand to save memory when using gradient checkpointing and allocator
with this loop order gradient checkpointing with allocator on 16 layer model saves 13% memory; 2 layer memory it saves 2% memory.
the computation results are the same
* add API functions to access llama model tensors
* add stub example for finetuning, based on train-text-from-scratch
* move and remove code
* add API functions to access remaining model parameters:
mult, head and rot
* first draft for LORA finetune training
* remove const model and layer arguments in API functions for accessing model tensors
* bug fixes to make finetune compile
automatic allocator does not work yet
* add debug prints for training memory improvements
* fix names of lora tensors
* avoid stack overflow resulting from big ggml_cgraph
replace stack allocation and ggml_build_forward by ggml_new_graph in combination with ggml_build_forward_expand
* replace llama API functions to get model tensors by one function to get model tensor by name
LLAMA_API struct ggml_tensor * llama_get_model_tensor(struct llama_model * model, const char * name);
* remove unused call to not existing llama_get_layer_from_model
* implement ggml_compute_forward_out_prod_q_f32
* remove trailing whitespace
* add lora finetune support on quantized base model tensors
* add ggml_add_cast API function
this function works like ggml_add, but accepts a data type for the resulting tensor.
only supported for quantized src0 input.
* use ggml_add_cast in finetuning
lora-applied weights will now have data type F32, which improves gradients when finetuning quantized base models
* bug fix: actually use result type passed to ggml_add_cast
* make sure base model tensors data cannot be used in viewable operations
memory allocator would try to make lora application inplace on base model tensors.
since those are memory mapped this will result in memory access violations
* fix bug in ggml_out_prod which resulted in wrong n_dims of result tensors
* avoid keeping in memory ALL of the gradients
The problem here stems from ggml_graph_reset. This function is called in the optimization function, before each graph computation, to reset the gradients to zero. This required a unique memory slot for each gradient: allocating memory from a previosly freed memory location might lead to non-zero input gradients.
During ggml_compute_backward the gradients are build stepwise by adding or substracting new values, starting from a OP_NONE tensor which needs to contain zero-values. This requires the graph reset.
To avoid this I now remember in ggml_build_backward_expand the original OP_NONE gradient tensors in a hash table, which is passed to ggml_compute_backward. There instead of using add (or sub or similar) I test whether the existing gradient to be changed is a zero-valued-tensor by looking up its existence in the hash table. When it is such a zero-tensor it will not be modified, but replaced by the value to be added, otherwise the regular add (not inplace, allocator will take care of this) will be used. This way none of those zero-tensor values will be necessary in the final backward graph and more importantly they won't need a unique memory slot, just to make them zero.
* remove trailing whitespace
* remove debug prints and function to compute tensor data hash
* improve optimization iteration prints
* adjust maximal values to support finetuning 3B models
* change default finetune params lora_r and lora_alpha to match the n_rank parameters of 4
* bug fix: make sure finetune input gradient is allocated at begin and kept until end
* remove unnecessary src tensor from ggml_get_rows_back
we don't need data of src[2] for computation, only to setup the correct output shape.
remove dependency on src[2], so that allocator can work more freely.
the computational graph is still completely determined, because the output shape is naturally included.
this is similar to how ggml_reshape does it.
* remove unnecessary src tensor from ggml_repeat & ggml_repeat_back
we don't need data of src[1] for computation, only to setup the correct output shape.
remove dependency on src[1], so that allocator can work more freely.
the computational graph is still completely determined, because the output shape is naturally included
* resolve todo
allocator will only make it inplace when they are of the same type
* mixing multiple LORA adapters is now possible
pass more than one '--lora FNAME' argument to apply more than one LORA.
use '--lora-scaled FNAME S' when you want to specify a user-defined scale for an adapter.
* add option to save finetune output every N iterations
* also save latest finetune output with ITERATION="LATEST" and print where files are saved
saving with LATEST makes it easier to resume training from the latest checkpoint
the string "LATEST" can be configured with command line option "--fn-latest STR"
* update checkpoint train stats before saving via "--save-every"
* add command line option `--rank-wo N` for rank of wo tensor
* update finetune README
* fix dump_non_result_info_yaml to output multiple lora adapters
* bug fix: replace GGML_TYPE_SIZE[t] by ggml_type_size(t)
* replace llama_n_mult by llama_n_ff
* finetune bug fixes to compile with merged in code from master
* remove prediction related code to reduce duplicated code with main
use main instead
* reduce large memory overhead in train-text-from-scratch
all gradients had to be pinned so that graph_reset works correctly.
this is no longer necessary with the changes to ggml_compute_backward introduced in this PR.
* add comment explaining why finetune checkpoints are allocated in one block
* make default value of float member a float literal
* handle rms_norm and rope parameters the same as in train-text-from-scratch
* remove unused code
* remove vocab related code as it is unnecessary
* add LLM_KV_TRAINING_TYPE to train-text-from-scratch checkpoints
so that they can be differentiated from lora finetune checkpoints
* add gguf constants and load/save functions from train-text-from-scratch
* add load & save lora finetune checkpoints via gguf
* add python script to convert old finetune checkpoint files to gguf
* remove old checkpoint save & load code
* remove code to print data checksums which was used to verify correctness of new gguf code
* omit tokenization when training is disabled, only save llama lora adapter
training can be disabled by passing '-n 0' to finetune
* remove trailing whitespace
* update README.md
* implement ggml_compute_forward_repeat_f16
* avoid stack overflow of large cgraphs in test-grad0
* add ggml API functions ggml_unravel_index, ggml_get_i32_nd and its analogs for set and for f32
ggml_get_i32_1d, ggml_set_i32_1d, ggml_get_f32_1d, ggml_set_f32_1d now support non-contiguous tensors.
in case of non-contiguous tensor, the 1d index is unraveled into a multi index using ggml_unravel_index to be passed to '_nd' function equivalent.
this fixes a bug in test-grad0 which happens due to ggml_build_backward not building purely contiguous tensors anymore
* increase test-grad0 context mem size to accommodate for bigger cgraph
* add sanity check to ggml_compute_backward, asserting the correct shape of gradients
* fix ggml_acc_or_set to return tensor of correct shape
* remove unused 'inplace' argument from ggml_compute_backward function
inplace operations to add gradients are no longer created by ggml_compute_backward
use allocator to automatically make inplace operations
* add missing argument 'int i0' to ggml_get_i32_nd & ggml_set_i32_nd header declarations
* fix error message in ggml_allocr_alloc to display actual max_avail
* fix check_gradient
ggml_build_backward_expand was previously replaced by ggml_build_backward, but the assignment of forward graph to backward graph missing
* use tensor->view_src instead of ggml_is_view and get_view_source
* move gradient checkpointing code into ggml, new API function:
// build gradient checkpointing backward graph gb for gf using provided checkpoints
// gb_tmp will contain original backward graph with rewritten backward process nodes,
// but without the second forward pass nodes.
GGML_API void ggml_build_backward_gradient_checkpointing(
struct ggml_context * ctx,
struct ggml_cgraph * gf,
struct ggml_cgraph * gb,
struct ggml_cgraph * gb_tmp,
struct ggml_tensor * * checkpoints,
int n_checkpoints);
* replace custom data getters and setters by ggml functions
* train-text-from-scratch can train (full finetune) gguf models
just pass the gguf model via `--checkpoint-in FN`.
after this, to continue training, pass the generated checkpoint instead of the original gguf model.
tested with smaller models, bigger models may exceed available memory.
use (LORA) finetune for those.
* remove trailing whitespace
* add option to save train-text-from-scratch output every N iterations
* update README.md
* fix warnings
* fix warnings
* remove finetune option to disable allocator
the allocator should always be used.
by making sure that it is always used it gets easier to implement automatic memory requirements computation
* add tensor checkpoints only when gradient checkpointing is enabled
* initialize opt ggml context if none was provided
* add ggml-alloc API function 'ggml_allocr_max_size' to get max size of alloc
GGML_API size_t ggml_allocr_max_size(struct ggml_allocr * alloc);
* finetune: automatically allocate all memory and changes to command line options
remove '--n_examples N' parameter, as it no longer makes sense to call optimization process multiple times in a loop.
add '--only_write_lora' command line option: will skip tokenization and training, to only write a llama.cpp comptabile LORA adapter.
remove memory buffer related command line options.
improve iteration console output.
* add finetune to Makefile
* update README.md
* print time per iteration and estimate remaining time
* increase measured alloc size by tensor_alignment
ggml_allocr_reset will reduce the given size by up to tensor_alignment-1
* fix README.md
* add some more allocator debug prints
* bug fix, probably solves the 'ggml_allocr_alloc: not enough space in the buffer' issue
* revert last commit
"bug fix, probably solves the 'ggml_allocr_alloc: not enough space in the buffer' issue"
"alloc was freeing an externally allocated tensor, because it calculated the end of allocator memory as alloc->data + alloc->max_size instead of alloc->data + alloc->size."
This is intentional to reduce the risk of freeing external tensors when measuring. Unless max_size is not properly calculated, I don't see why this is an issue.
* remove unnecessary "0x" before "%p" output
* move measurement memory segment to upper region of the address space
* update README.md
* fix printf format warnings
* add missing gguf_free in load_checkpoint_lora_file
* load default rms_norm and rope parameters from base model
* add gradient accumulation
specify number accumulation steps with '--grad-acc N'.
this will simulate a bigger batch size of grad_acc*batch.
* fix tracking of train_samples and train_tokens
* build : fix compile warnings
* ggml : fix L-BFGS linesearch loop
* improve finetune time measurement
fix printf warnings on system where int64_t is (long int).
change time datatypes to double because values get big with long training times.
exclude file saving from time measurement.
converge faster to actual time per iteration by removing very small first duration before first iteration was performed.
fix bug in output of total training time, the reported value was 1000 times to small.
* specify default lora rank with '--lora-r N'
'--lora-r N' will specify default rank for all tensors
'--rank-wq N', etc. will override this default rank for specific tensor types.
* fix gradient accumulation bug where the same batch was used for each microstep
* fix gradient accumulation bug where the same batch was used for each microstep
* support grouped-query-attention in ggml_flash_attn and ggml_flash_attn_back
k and v can now be repeated in q along ne[2]
in forward pass just use modulo to compute k and v indices, like ik2 = iq2 % nek2.
in backard pass this won't work as easy, because multiple threads will compete to accumulate to the same k->grad[:,ik1,ik2,ik3] and v->grad[:,iv1,iv2,iv3].
so we change the parallelization over q rows to be over k rows. this ensures non-overlapping (ik2,ik3) across threads.
in each thread we then iterate over the number of repetitions of k/v in q to compute iq2 as iq2 = ik2 + irep*nek2.
since ne2 is not the same for q,k and v we also change how the gradients are concatenated into the result tensor.
additionally the offsets of gradq, gradk and gradv in the result tensor are now memory aligned.
we also simplify the compute_backward part of flash_attn to use ggml_reshape instead of switching over the number of dimensions.
this needs a small change to ggml_reshape, removing the assertion of second argument to be contiguous.
since only the shape (ne) of the second reshape argument is of relevance, its memory layout (nb) is irrelevant -> it can very well be non-contiguous.
change test-grad0 to also test for repeated k/v in q.
this changes the rng and now results in small gradient differences in softmax. these solely come from using f16 exp table lookup in forward softmax: when temporarily changing softmax to use actual exp function, the reported gradient differences go away. gradient differences coming solely from f16 table lookup are acceptable.
added a note to explain this.
* add llama API functions to get grouped-query-attention n_head parameter 'n_head_kv'.
* fix finetune to support grouped-query-attention (using flash-attention)
note: ggml changes to ggml_out_prod are necessary to support grouped-query-attention without flash-attention.
* support broadcastable a in out_prod(a, b) and backward pass of broadcasting mul_mat(a, b)
* test broadcasting mul_mat backward pass
* decouple random number generator of each operation test
when changing one test the rng of others tests is not influenced anymore
* add comment briefly describing what ggml_repeat_back does
* simplify broadcasting mul_mat backward using ggml_repeat_back
* add cgraph evaluation order member and corresponding enum type
this controls in which order ggml_build_forward visits source nodes.
by default the nodes are visited left to right, i.e. src[0] first.
in some cases it is beneficial for ggml-alloc to visit in a different order.
two possible orders are supported: left-to-right (src[0] first) and right-to-left (src[0] last).
* measure max compute size for each cgraph eval order and use best order
this can bring huge memory savings:
e.g. codellama-34b with n_ctx=64, n_batch=1 goes from 92927.8mb down to 4627.6 MB
* remove unused command line options
* add sample start patterns and options to force new or by default resume last shuffling
* update shuffle rng state on reshuffle
* exclude known zero values from computations in flash_attn_f32 & flash_attn_back_f32
* remove probably unnecessary exception type flags from stringstream
* pass correct max number of tokens to llama_tokenize
* account for possible leading whitespace that will be added by tokenizer
e.g. '\t' will be tokenized by llama spm tokenizer to [29871, 12]
* use unrolled vec_mad in out_prod
y is vec_mad result vec.
x is vec_mad input vec.
v is vec_mad input scalar.
ggml_vec_mad_f32_unroll will internally loop over x and v with same y.
GGML_VEC_MAD_UNROLL is by default defined to 32.
This value is empirical optimized using performance test runs of out-prod in openllama-3b finetune with 256 context length and batch size 1. It gives 23% performance boost for out_prod.
Full measurements of out-prod runtime in ms:
unroll_xv unroll_yv
1 67014.643 87826.469
2 77117.552 89077.656
4 72091.311 109121.657
8 61077.543 88678.334
16 56914.67 79514.947
24 59024.595 84350.254
28 55952.446 83368.73
32 51476.658 85177.745
36 55973.792 84659.92
40 55139.616 93844.738
48 60736.392 93330.267
64 99856.878 116994.99
Second column is when unrollying yv instead of xv
* set lora_alpha to value of lora_r if it is not set via command line
otherwise only changing lora_r will change scaling of lora adapter used in prediction
* reshuffle original sample order instead of the previous shuffled order
otherwise resumed reshuffle will not result in same sample order
* block tiling for out-prod inspired by mul-mat
block sizes are empirically optimized
roughly doubles the flops of out-prod
* exclude some more known zero values from computations in flash_attn_f32 & flash_attn_back_f32
* add static keywords
* remove outcommented old code
* update train-text-from-scratch with tokenization, sample selection and shuffling from finetune
* remove lbfgs related train parameters
* move common train functions into common/train.[h|cpp]
* move train state into struct train_state
* move train data saving code into callback to unify code of opt_callback
train_params are still different in finetune and train-text-from-scratch, so it can't yet be moved to train.h|cpp
* move common train params into common/train
* move common opt_callback into common/train
* fix consume_common_train_arg
* save and load head_count_kv in lora checkpoints
* increase train_samples by used_samples instead of number of batches
on batch can contain more than one sample when option "fill_with_next_samples" is used
* fix usage of llama_tokenize
* remove static from process_escape since we need it exposed in header
* fix code formating of long function declarations
* fix condition in load_train_state_gguf
* use die("msg") instead of replace GGML_ASSERT(!"msg") or throw std::runtime_error("msg")
* fix saving and loading of training type
* remove terminating '\0' from tokenization
(llama_tokenize is now passed the string length instead of relying on terminating '\0')
* fix compile warnings
* fix compile warnings
* use new/delete for train_state instead of malloc/free
using malloc may result in seg faults when trying to assign string fields
* assert that sample_count > 0, avoiding division by zero
* fix frand to return value in interval [0,1)
* add train option "--sample-random-offsets"
Use samples beginning at random offsets.
The offset is only applied to the first sample in each batch context window.
Together with "--fill-with-next-samples" this may help for training endless text generation.
For example given a dataset containing samples "abcd", "ABCD", "0123".
With context size of 8 and options "--fill-with-next-samples", "--no-separate-with-eos", "--no-separate-with-bos",
the context windows of batches could only be filled with "abcdABCD", "ABCDabcd", "0123abcd", etc.
With "--sample-random-offsets" it can also be filled with "23abcdAB", "bcd0123A", etc.
* deduplicate code into function
* remove n_rot hparam, as it must always be hparam.n_embd_head()
* align code
* assert correct base model tensor shapes
* move some params from lora hparams into model hparams and load model params from gguf
this equalizes the model definition in finetune and text-from-scratch and removes the need for additional llama api functions to get model parameters
* remove now unnecessary llama API functions to get model params that where added by this PR
* train-text-from-scratch: automatically allocate model tensors, remove option '--mem-model N'
* train-text-from-scratch: automatically allocate opt context
* train-text-from-scratch: automatically allocate input tensors
* train-text-from-scratch: automatically allocate compute memory
* remove unused options and equalize train-text-from-scratch with finetune
* initialize opt->loss_after with zero
* add export-lora program
* remove trailing whitespace
* add export-lora build in Makefile
* remove unused struct tensor_info from export-lora
* add export-lora build dependency to llama
because it depends on common, which depends on llama
* update finetune README.md
* cancel optimization when specified number of epochs is completed
* improve handling of export-lora arguments
print errors and warnings when files could not be read or created
* Fix export-lora.cpp "not enough space in the context's memory pool" (#1)
* Fix export-lora.cpp "not enough space in the context's memory pool"
Without this patch, export-lora would sometimes error with "not enough space in the context's memory pool (needed 656784, available 656800)".
* increase required context size by 5*GGML_MEM_ALIGN instead of plain 16
---------
Co-authored-by: xaedes <xaedes@gmail.com>
* improve handling of not yet supported tensor types
---------
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
Co-authored-by: meatbag-18a <145869052+meatbag-18a@users.noreply.github.com>
2023-09-28 18:40:11 +00:00
float lora_scale = std : : get < 1 > ( params . lora_adapter [ i ] ) ;
2023-06-24 08:47:58 +00:00
int err = llama_model_apply_lora_from_file ( model ,
train : finetune LORA (#2632)
* fix track_max_mem in forward_batch_wo_cache_flash_attn_train
* remove unnecessary Adam(W) optimizer tensors.
reduces optimizer memory overhead from 7*modelsize to 2*modelsize.
additionally allows to optimize models with more than 2^31 parameters by replacing int with int64_t.
bumps training checkpoint file version, but old checkpoints can still be read.
new version with less tensors is saved.
* add gradient clipping to AdamW
* Fix reset of unused g->nodes and g->grads to NULL
* implement gradient checkpointing for training
reduces memory overhead from O(n_layer) to O(sqrt(n_layer))
as explained in readme of https://github.com/cybertronai/gradient-checkpointing
* remove unused compute buffer 3
* add and use function ggml_build_backward_expand to avoid stack overflows with large maximum number of nodes
GGML_API void ggml_build_backward_expand(struct ggml_context * ctx, struct ggml_cgraph * gf, struct ggml_cgraph * gb, bool keep);
* change AdamW decay parameter to work like the torch AdamW decay parameter
It is now relative to Adam learning rate `alpha*sched`.
Before that it was relative to `sched` only.
`alpha` being the maximum learning rate and `sched` being a scaling parameter in [0..1]
* change default AdamW weight decay parameter used in training to 0.1 as used in nanoGPT
* change default AdamW weight decay parameter defined in ggml to 0.0, making Adam default instead of AdamW
btw: the default weight decay parameter for torch.optim.AdamW is 0.01
* bug fixes for cross entropy loss
ggml_cross_entropy_loss: sums where not correctly added in workload of each thread
ggml_cross_entropy_loss_back: simplify backward process, reducing numerical issues
guard usage of exp f16 lookup in cross entropy by #define GGML_CROSS_ENTROPY_EXP_FP16
cross entropy loss is only used once during training, but it is quite sensitive to numerical errors introduced by exp-f16-lookup.
so exp-f16-lookup for cross entropy loss is disabled by default, trading better gradients for very slightly worse runtime performance.
* fix test-grad0 for cross_entropy_loss
the second argument to cross_entropy_loss must sum up to 1 for each row
* fix test-grad0 for soft_max
dont use only sum as aggregation, because sum of softmax is always 1 -> finite differences should not work
instead use sum(log(soft_max()*(1-eps)+eps)); use eps to avoid log(0)
* improve finite differences of test-grad0 by using double instead of float
* change cross_entropy_loss to output average over all rows
this helps keeping the loss and gradients in a sane range
* improve gradient checkpointing
sqrt(n_layers) is only the best checkpoint step when mem size of checkpoints and mem size of layers are equal.
since layers require more memory than the single-tensor-checkpoint we use, the optimal values are compute different:
```
given: n, u, v
objective: minimize(a*u+b*v) where a*b=n, a>0, b>0
b=n/a
minimize(a*u+v*n/a)
diff(a*u+v*n/a, a) = u - (v*n/a)/a
diff(a*u+v*n/a, a) == 0
u - (v*n/a)/a == 0
u == v*n/(a*a)
u*a*a = v*n
a*a = v*n/u
a = sqrt(n*v/u)
```
this change results in more checkpoints, requiring less layers to store between checkpoints, overall improving memory usage.
* disable gradient checkpointing debug output
* llama : fix rope usage in train-text-from-scratch after ChatGLM change
* add more training parameters:
--enable-restart N Only for Adam optimizer. Enable restarts of cos-decay
--disable-restart N Only for Adam optimizer. Disable restarts of cos-decay
--opt-past N Number of optimization iterations to track for delta convergence test. Disabled when zero.
--opt-delta N Maximum delta for delta convergence test. Disabled when <= zero.
--opt-max-no-improvement N Maximum number of optimization iterations with no improvement. Disabled when <= zero.
--adam-epsf N AdamW epsilon for convergence test. Disabled when <= zero.
--adam-min-alpha N Adam minimum learning rate alpha, usually 0.1 * alpha
* replace memcpy with reshape operation so that the graph is not cut at the input
this makes it possible to store other values into the input tensor and then simply recompute the graph without rebuilding it
* remove unused function argument from get_example_targets_batch
* measure and print total training time
* add optimization callback to ggml_opt_resume_g
this callback is called before each iteration with custom data and pointer to learning schedule parameter (only used in Adam(W)).
can be used for dynamic learning schedule and setting input data for batches before each iteration
* use optimization callback in training
allows dynamic learning schedule and different batch data for each iteration without relying on low n_iter and high n_examples parameters
reduces runtime by avoiding restart of optimization function and improves training convergence by providing a different batch for each iteration
* add minimum number of tensor dimensions to apply weight decay (default 2)
this allows to not apply weight decay to bias parameters
* rename training parameter cos-decay-alpha to cos-decay-min and clarify that adam-min-alpha also applies to warmup
* fix increase of model.train_samples and model.train_tokens
now that each optimizer iteration gets its own batch we need to multiply by number of opt iterations
* change sampling parameters for prediction after training to defaults of common.h
and clarify what is context for prediction and what are generated tokens
* tighten abs error bounds for cross_entropy_loss in test-grad0
* add conditional compilation of using F16 exp in flash attention
uncomment `// #define GGML_FLASH_ATTN_EXP_FP16` to enable usage of f16 exp in flash attention
* tighten abs error bounds for flash_attn in test-grad0
* tighten abs error bounds for sqrt in test-grad0
* remove out-commented vectorized code of opt_adam
the vectorized code might be bit faster for low number of parameters, but it had a big memory usage overhead
* ggml : update ggml_rms_norm_back with configurable eps
* llama training : fix ggml_rms_norm_back calls to pass configurable eps
* remove trailing whitespace
* add train function using automatic gradient checkpointing backward pass and allocator
* in train function replace add_inplace by regular add
because using add_inplace seems to result in different gradients
* don't use allocate hash_map on context
because the context has no_alloc=True when using memory allocator resulting in NULL data pointers
* correctly clone reshape and permute operations by also cloning tensor->nb values
* fix variable name and add missing type cast
* terminate recursive tensor cloning when reaching tensor without src tensors
* correctly clone view tensors by setting data pointers
without this the checkpointing would only work when being used together with memory allocator
* fix variable names
* swap arguments to commutative ops to be the same as in `forward_batch_wo_cache_flash_attn`
* add input tensors as checkpoints
so that recursive tensor cloning of gradient checkpointing terminates on input tensors
* fix variable name and add missing boolean negation
* make sure some tensors are not reallocated by inserting new temporary nodes depending on them:
output and parameter gradient tensors need to be available at the end of the graph execution
parameter gradient tensors also need to be available before the graph execution because they are set to zero before each optimizer iteration
checkpoint tensors are allocated all together to reduce memory allocator fragmentation
afterwards, in addition to the temporary nodes, we also need to reset the temporary leafs
* fix ASSERT to work with zero layers
* add training options whether to use allocator and/or unified training function
* integrate unified training function which may use memory allocator
the unified training function also supports arguments whether to use flash attention and/or gradient checkpointing
* format name of cloned tensors with " (clone)" suffix
* set names for tensors in unified train function for easier debugging
* allocate graph on context using ggml_new_graph
* remove handwritten training functions
* remove unused training parameters "use_scratch" and "use_unified"
* remove trailing whitespace
* remove unused train params: mem_compute1_gb & mem_compute2_gb
mem_compute_gb is used for compute when automatic memory allocator is not enabled, otherwise it can be very small to only hold the tensor definitions
mem_compute0_gb is used for automatic memory allocator (as long as measurement of max required size is not implemented)
* remove unused forward_batch function
* add debug asserts in ggml_allocr_alloc to some common pitfalls when using this function directly
* only use ggml_allocr_alloc when tensor has NULL data and is no view
* fix test when to create temporary backward graph
temporary backward graph is only necessary when using checkpointing
* fix memory "leak" in optimizers
each iteration a new cplan with new memory for work data was allocated.
now cplan creation only happens at the start of optimization, with each iteration reusing the cplan and its work data.
* reverse order of for loop in ggml_build_backward_expand to save memory when using gradient checkpointing and allocator
with this loop order gradient checkpointing with allocator on 16 layer model saves 13% memory; 2 layer memory it saves 2% memory.
the computation results are the same
* add API functions to access llama model tensors
* add stub example for finetuning, based on train-text-from-scratch
* move and remove code
* add API functions to access remaining model parameters:
mult, head and rot
* first draft for LORA finetune training
* remove const model and layer arguments in API functions for accessing model tensors
* bug fixes to make finetune compile
automatic allocator does not work yet
* add debug prints for training memory improvements
* fix names of lora tensors
* avoid stack overflow resulting from big ggml_cgraph
replace stack allocation and ggml_build_forward by ggml_new_graph in combination with ggml_build_forward_expand
* replace llama API functions to get model tensors by one function to get model tensor by name
LLAMA_API struct ggml_tensor * llama_get_model_tensor(struct llama_model * model, const char * name);
* remove unused call to not existing llama_get_layer_from_model
* implement ggml_compute_forward_out_prod_q_f32
* remove trailing whitespace
* add lora finetune support on quantized base model tensors
* add ggml_add_cast API function
this function works like ggml_add, but accepts a data type for the resulting tensor.
only supported for quantized src0 input.
* use ggml_add_cast in finetuning
lora-applied weights will now have data type F32, which improves gradients when finetuning quantized base models
* bug fix: actually use result type passed to ggml_add_cast
* make sure base model tensors data cannot be used in viewable operations
memory allocator would try to make lora application inplace on base model tensors.
since those are memory mapped this will result in memory access violations
* fix bug in ggml_out_prod which resulted in wrong n_dims of result tensors
* avoid keeping in memory ALL of the gradients
The problem here stems from ggml_graph_reset. This function is called in the optimization function, before each graph computation, to reset the gradients to zero. This required a unique memory slot for each gradient: allocating memory from a previosly freed memory location might lead to non-zero input gradients.
During ggml_compute_backward the gradients are build stepwise by adding or substracting new values, starting from a OP_NONE tensor which needs to contain zero-values. This requires the graph reset.
To avoid this I now remember in ggml_build_backward_expand the original OP_NONE gradient tensors in a hash table, which is passed to ggml_compute_backward. There instead of using add (or sub or similar) I test whether the existing gradient to be changed is a zero-valued-tensor by looking up its existence in the hash table. When it is such a zero-tensor it will not be modified, but replaced by the value to be added, otherwise the regular add (not inplace, allocator will take care of this) will be used. This way none of those zero-tensor values will be necessary in the final backward graph and more importantly they won't need a unique memory slot, just to make them zero.
* remove trailing whitespace
* remove debug prints and function to compute tensor data hash
* improve optimization iteration prints
* adjust maximal values to support finetuning 3B models
* change default finetune params lora_r and lora_alpha to match the n_rank parameters of 4
* bug fix: make sure finetune input gradient is allocated at begin and kept until end
* remove unnecessary src tensor from ggml_get_rows_back
we don't need data of src[2] for computation, only to setup the correct output shape.
remove dependency on src[2], so that allocator can work more freely.
the computational graph is still completely determined, because the output shape is naturally included.
this is similar to how ggml_reshape does it.
* remove unnecessary src tensor from ggml_repeat & ggml_repeat_back
we don't need data of src[1] for computation, only to setup the correct output shape.
remove dependency on src[1], so that allocator can work more freely.
the computational graph is still completely determined, because the output shape is naturally included
* resolve todo
allocator will only make it inplace when they are of the same type
* mixing multiple LORA adapters is now possible
pass more than one '--lora FNAME' argument to apply more than one LORA.
use '--lora-scaled FNAME S' when you want to specify a user-defined scale for an adapter.
* add option to save finetune output every N iterations
* also save latest finetune output with ITERATION="LATEST" and print where files are saved
saving with LATEST makes it easier to resume training from the latest checkpoint
the string "LATEST" can be configured with command line option "--fn-latest STR"
* update checkpoint train stats before saving via "--save-every"
* add command line option `--rank-wo N` for rank of wo tensor
* update finetune README
* fix dump_non_result_info_yaml to output multiple lora adapters
* bug fix: replace GGML_TYPE_SIZE[t] by ggml_type_size(t)
* replace llama_n_mult by llama_n_ff
* finetune bug fixes to compile with merged in code from master
* remove prediction related code to reduce duplicated code with main
use main instead
* reduce large memory overhead in train-text-from-scratch
all gradients had to be pinned so that graph_reset works correctly.
this is no longer necessary with the changes to ggml_compute_backward introduced in this PR.
* add comment explaining why finetune checkpoints are allocated in one block
* make default value of float member a float literal
* handle rms_norm and rope parameters the same as in train-text-from-scratch
* remove unused code
* remove vocab related code as it is unnecessary
* add LLM_KV_TRAINING_TYPE to train-text-from-scratch checkpoints
so that they can be differentiated from lora finetune checkpoints
* add gguf constants and load/save functions from train-text-from-scratch
* add load & save lora finetune checkpoints via gguf
* add python script to convert old finetune checkpoint files to gguf
* remove old checkpoint save & load code
* remove code to print data checksums which was used to verify correctness of new gguf code
* omit tokenization when training is disabled, only save llama lora adapter
training can be disabled by passing '-n 0' to finetune
* remove trailing whitespace
* update README.md
* implement ggml_compute_forward_repeat_f16
* avoid stack overflow of large cgraphs in test-grad0
* add ggml API functions ggml_unravel_index, ggml_get_i32_nd and its analogs for set and for f32
ggml_get_i32_1d, ggml_set_i32_1d, ggml_get_f32_1d, ggml_set_f32_1d now support non-contiguous tensors.
in case of non-contiguous tensor, the 1d index is unraveled into a multi index using ggml_unravel_index to be passed to '_nd' function equivalent.
this fixes a bug in test-grad0 which happens due to ggml_build_backward not building purely contiguous tensors anymore
* increase test-grad0 context mem size to accommodate for bigger cgraph
* add sanity check to ggml_compute_backward, asserting the correct shape of gradients
* fix ggml_acc_or_set to return tensor of correct shape
* remove unused 'inplace' argument from ggml_compute_backward function
inplace operations to add gradients are no longer created by ggml_compute_backward
use allocator to automatically make inplace operations
* add missing argument 'int i0' to ggml_get_i32_nd & ggml_set_i32_nd header declarations
* fix error message in ggml_allocr_alloc to display actual max_avail
* fix check_gradient
ggml_build_backward_expand was previously replaced by ggml_build_backward, but the assignment of forward graph to backward graph missing
* use tensor->view_src instead of ggml_is_view and get_view_source
* move gradient checkpointing code into ggml, new API function:
// build gradient checkpointing backward graph gb for gf using provided checkpoints
// gb_tmp will contain original backward graph with rewritten backward process nodes,
// but without the second forward pass nodes.
GGML_API void ggml_build_backward_gradient_checkpointing(
struct ggml_context * ctx,
struct ggml_cgraph * gf,
struct ggml_cgraph * gb,
struct ggml_cgraph * gb_tmp,
struct ggml_tensor * * checkpoints,
int n_checkpoints);
* replace custom data getters and setters by ggml functions
* train-text-from-scratch can train (full finetune) gguf models
just pass the gguf model via `--checkpoint-in FN`.
after this, to continue training, pass the generated checkpoint instead of the original gguf model.
tested with smaller models, bigger models may exceed available memory.
use (LORA) finetune for those.
* remove trailing whitespace
* add option to save train-text-from-scratch output every N iterations
* update README.md
* fix warnings
* fix warnings
* remove finetune option to disable allocator
the allocator should always be used.
by making sure that it is always used it gets easier to implement automatic memory requirements computation
* add tensor checkpoints only when gradient checkpointing is enabled
* initialize opt ggml context if none was provided
* add ggml-alloc API function 'ggml_allocr_max_size' to get max size of alloc
GGML_API size_t ggml_allocr_max_size(struct ggml_allocr * alloc);
* finetune: automatically allocate all memory and changes to command line options
remove '--n_examples N' parameter, as it no longer makes sense to call optimization process multiple times in a loop.
add '--only_write_lora' command line option: will skip tokenization and training, to only write a llama.cpp comptabile LORA adapter.
remove memory buffer related command line options.
improve iteration console output.
* add finetune to Makefile
* update README.md
* print time per iteration and estimate remaining time
* increase measured alloc size by tensor_alignment
ggml_allocr_reset will reduce the given size by up to tensor_alignment-1
* fix README.md
* add some more allocator debug prints
* bug fix, probably solves the 'ggml_allocr_alloc: not enough space in the buffer' issue
* revert last commit
"bug fix, probably solves the 'ggml_allocr_alloc: not enough space in the buffer' issue"
"alloc was freeing an externally allocated tensor, because it calculated the end of allocator memory as alloc->data + alloc->max_size instead of alloc->data + alloc->size."
This is intentional to reduce the risk of freeing external tensors when measuring. Unless max_size is not properly calculated, I don't see why this is an issue.
* remove unnecessary "0x" before "%p" output
* move measurement memory segment to upper region of the address space
* update README.md
* fix printf format warnings
* add missing gguf_free in load_checkpoint_lora_file
* load default rms_norm and rope parameters from base model
* add gradient accumulation
specify number accumulation steps with '--grad-acc N'.
this will simulate a bigger batch size of grad_acc*batch.
* fix tracking of train_samples and train_tokens
* build : fix compile warnings
* ggml : fix L-BFGS linesearch loop
* improve finetune time measurement
fix printf warnings on system where int64_t is (long int).
change time datatypes to double because values get big with long training times.
exclude file saving from time measurement.
converge faster to actual time per iteration by removing very small first duration before first iteration was performed.
fix bug in output of total training time, the reported value was 1000 times to small.
* specify default lora rank with '--lora-r N'
'--lora-r N' will specify default rank for all tensors
'--rank-wq N', etc. will override this default rank for specific tensor types.
* fix gradient accumulation bug where the same batch was used for each microstep
* fix gradient accumulation bug where the same batch was used for each microstep
* support grouped-query-attention in ggml_flash_attn and ggml_flash_attn_back
k and v can now be repeated in q along ne[2]
in forward pass just use modulo to compute k and v indices, like ik2 = iq2 % nek2.
in backard pass this won't work as easy, because multiple threads will compete to accumulate to the same k->grad[:,ik1,ik2,ik3] and v->grad[:,iv1,iv2,iv3].
so we change the parallelization over q rows to be over k rows. this ensures non-overlapping (ik2,ik3) across threads.
in each thread we then iterate over the number of repetitions of k/v in q to compute iq2 as iq2 = ik2 + irep*nek2.
since ne2 is not the same for q,k and v we also change how the gradients are concatenated into the result tensor.
additionally the offsets of gradq, gradk and gradv in the result tensor are now memory aligned.
we also simplify the compute_backward part of flash_attn to use ggml_reshape instead of switching over the number of dimensions.
this needs a small change to ggml_reshape, removing the assertion of second argument to be contiguous.
since only the shape (ne) of the second reshape argument is of relevance, its memory layout (nb) is irrelevant -> it can very well be non-contiguous.
change test-grad0 to also test for repeated k/v in q.
this changes the rng and now results in small gradient differences in softmax. these solely come from using f16 exp table lookup in forward softmax: when temporarily changing softmax to use actual exp function, the reported gradient differences go away. gradient differences coming solely from f16 table lookup are acceptable.
added a note to explain this.
* add llama API functions to get grouped-query-attention n_head parameter 'n_head_kv'.
* fix finetune to support grouped-query-attention (using flash-attention)
note: ggml changes to ggml_out_prod are necessary to support grouped-query-attention without flash-attention.
* support broadcastable a in out_prod(a, b) and backward pass of broadcasting mul_mat(a, b)
* test broadcasting mul_mat backward pass
* decouple random number generator of each operation test
when changing one test the rng of others tests is not influenced anymore
* add comment briefly describing what ggml_repeat_back does
* simplify broadcasting mul_mat backward using ggml_repeat_back
* add cgraph evaluation order member and corresponding enum type
this controls in which order ggml_build_forward visits source nodes.
by default the nodes are visited left to right, i.e. src[0] first.
in some cases it is beneficial for ggml-alloc to visit in a different order.
two possible orders are supported: left-to-right (src[0] first) and right-to-left (src[0] last).
* measure max compute size for each cgraph eval order and use best order
this can bring huge memory savings:
e.g. codellama-34b with n_ctx=64, n_batch=1 goes from 92927.8mb down to 4627.6 MB
* remove unused command line options
* add sample start patterns and options to force new or by default resume last shuffling
* update shuffle rng state on reshuffle
* exclude known zero values from computations in flash_attn_f32 & flash_attn_back_f32
* remove probably unnecessary exception type flags from stringstream
* pass correct max number of tokens to llama_tokenize
* account for possible leading whitespace that will be added by tokenizer
e.g. '\t' will be tokenized by llama spm tokenizer to [29871, 12]
* use unrolled vec_mad in out_prod
y is vec_mad result vec.
x is vec_mad input vec.
v is vec_mad input scalar.
ggml_vec_mad_f32_unroll will internally loop over x and v with same y.
GGML_VEC_MAD_UNROLL is by default defined to 32.
This value is empirical optimized using performance test runs of out-prod in openllama-3b finetune with 256 context length and batch size 1. It gives 23% performance boost for out_prod.
Full measurements of out-prod runtime in ms:
unroll_xv unroll_yv
1 67014.643 87826.469
2 77117.552 89077.656
4 72091.311 109121.657
8 61077.543 88678.334
16 56914.67 79514.947
24 59024.595 84350.254
28 55952.446 83368.73
32 51476.658 85177.745
36 55973.792 84659.92
40 55139.616 93844.738
48 60736.392 93330.267
64 99856.878 116994.99
Second column is when unrollying yv instead of xv
* set lora_alpha to value of lora_r if it is not set via command line
otherwise only changing lora_r will change scaling of lora adapter used in prediction
* reshuffle original sample order instead of the previous shuffled order
otherwise resumed reshuffle will not result in same sample order
* block tiling for out-prod inspired by mul-mat
block sizes are empirically optimized
roughly doubles the flops of out-prod
* exclude some more known zero values from computations in flash_attn_f32 & flash_attn_back_f32
* add static keywords
* remove outcommented old code
* update train-text-from-scratch with tokenization, sample selection and shuffling from finetune
* remove lbfgs related train parameters
* move common train functions into common/train.[h|cpp]
* move train state into struct train_state
* move train data saving code into callback to unify code of opt_callback
train_params are still different in finetune and train-text-from-scratch, so it can't yet be moved to train.h|cpp
* move common train params into common/train
* move common opt_callback into common/train
* fix consume_common_train_arg
* save and load head_count_kv in lora checkpoints
* increase train_samples by used_samples instead of number of batches
on batch can contain more than one sample when option "fill_with_next_samples" is used
* fix usage of llama_tokenize
* remove static from process_escape since we need it exposed in header
* fix code formating of long function declarations
* fix condition in load_train_state_gguf
* use die("msg") instead of replace GGML_ASSERT(!"msg") or throw std::runtime_error("msg")
* fix saving and loading of training type
* remove terminating '\0' from tokenization
(llama_tokenize is now passed the string length instead of relying on terminating '\0')
* fix compile warnings
* fix compile warnings
* use new/delete for train_state instead of malloc/free
using malloc may result in seg faults when trying to assign string fields
* assert that sample_count > 0, avoiding division by zero
* fix frand to return value in interval [0,1)
* add train option "--sample-random-offsets"
Use samples beginning at random offsets.
The offset is only applied to the first sample in each batch context window.
Together with "--fill-with-next-samples" this may help for training endless text generation.
For example given a dataset containing samples "abcd", "ABCD", "0123".
With context size of 8 and options "--fill-with-next-samples", "--no-separate-with-eos", "--no-separate-with-bos",
the context windows of batches could only be filled with "abcdABCD", "ABCDabcd", "0123abcd", etc.
With "--sample-random-offsets" it can also be filled with "23abcdAB", "bcd0123A", etc.
* deduplicate code into function
* remove n_rot hparam, as it must always be hparam.n_embd_head()
* align code
* assert correct base model tensor shapes
* move some params from lora hparams into model hparams and load model params from gguf
this equalizes the model definition in finetune and text-from-scratch and removes the need for additional llama api functions to get model parameters
* remove now unnecessary llama API functions to get model params that where added by this PR
* train-text-from-scratch: automatically allocate model tensors, remove option '--mem-model N'
* train-text-from-scratch: automatically allocate opt context
* train-text-from-scratch: automatically allocate input tensors
* train-text-from-scratch: automatically allocate compute memory
* remove unused options and equalize train-text-from-scratch with finetune
* initialize opt->loss_after with zero
* add export-lora program
* remove trailing whitespace
* add export-lora build in Makefile
* remove unused struct tensor_info from export-lora
* add export-lora build dependency to llama
because it depends on common, which depends on llama
* update finetune README.md
* cancel optimization when specified number of epochs is completed
* improve handling of export-lora arguments
print errors and warnings when files could not be read or created
* Fix export-lora.cpp "not enough space in the context's memory pool" (#1)
* Fix export-lora.cpp "not enough space in the context's memory pool"
Without this patch, export-lora would sometimes error with "not enough space in the context's memory pool (needed 656784, available 656800)".
* increase required context size by 5*GGML_MEM_ALIGN instead of plain 16
---------
Co-authored-by: xaedes <xaedes@gmail.com>
* improve handling of not yet supported tensor types
---------
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
Co-authored-by: meatbag-18a <145869052+meatbag-18a@users.noreply.github.com>
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lora_adapter . c_str ( ) ,
lora_scale ,
( ( i > 0 ) | | params . lora_base . empty ( ) )
? NULL
: params . lora_base . c_str ( ) ,
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params . n_threads ) ;
if ( err ! = 0 ) {
fprintf ( stderr , " %s: error: failed to apply lora adapter \n " , __func__ ) ;
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llama_free ( lctx ) ;
llama_free_model ( model ) ;
return std : : make_tuple ( nullptr , nullptr ) ;
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}
}
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if ( params . ignore_eos ) {
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params . sparams . logit_bias [ llama_token_eos ( model ) ] = - INFINITY ;
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}
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if ( params . warmup ) {
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LOG ( " warming up the model with an empty run \n " ) ;
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std : : vector < llama_token > tmp = { llama_token_bos ( model ) , llama_token_eos ( model ) , } ;
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llama_decode ( lctx , llama_batch_get_one ( tmp . data ( ) , std : : min ( tmp . size ( ) , ( size_t ) params . n_batch ) , 0 , 0 ) ) ;
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llama_kv_cache_clear ( lctx ) ;
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llama_synchronize ( lctx ) ;
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llama_reset_timings ( lctx ) ;
}
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return std : : make_tuple ( model , lctx ) ;
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}
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//
// Vocab utils
//
std : : vector < llama_token > llama_tokenize (
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const struct llama_context * ctx ,
const std : : string & text ,
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bool add_special ,
bool parse_special ) {
return llama_tokenize ( llama_get_model ( ctx ) , text , add_special , parse_special ) ;
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}
std : : vector < llama_token > llama_tokenize (
const struct llama_model * model ,
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const std : : string & text ,
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bool add_special ,
bool parse_special ) {
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// upper limit for the number of tokens
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int n_tokens = text . length ( ) + 2 * add_special ;
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std : : vector < llama_token > result ( n_tokens ) ;
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n_tokens = llama_tokenize ( model , text . data ( ) , text . length ( ) , result . data ( ) , result . size ( ) , add_special , parse_special ) ;
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if ( n_tokens < 0 ) {
result . resize ( - n_tokens ) ;
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int check = llama_tokenize ( model , text . data ( ) , text . length ( ) , result . data ( ) , result . size ( ) , add_special , parse_special ) ;
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GGML_ASSERT ( check = = - n_tokens ) ;
} else {
result . resize ( n_tokens ) ;
}
return result ;
}
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std : : string llama_token_to_piece ( const struct llama_context * ctx , llama_token token , bool special ) {
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std : : vector < char > result ( 8 , 0 ) ;
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const int n_tokens = llama_token_to_piece ( llama_get_model ( ctx ) , token , result . data ( ) , result . size ( ) , special ) ;
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if ( n_tokens < 0 ) {
result . resize ( - n_tokens ) ;
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int check = llama_token_to_piece ( llama_get_model ( ctx ) , token , result . data ( ) , result . size ( ) , special ) ;
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GGML_ASSERT ( check = = - n_tokens ) ;
} else {
result . resize ( n_tokens ) ;
}
return std : : string ( result . data ( ) , result . size ( ) ) ;
}
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std : : string llama_detokenize_spm ( llama_context * ctx , const std : : vector < llama_token > & tokens ) {
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const llama_token bos_id = llama_token_bos ( llama_get_model ( ctx ) ) ;
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std : : string piece ;
std : : string result ;
for ( size_t i = 0 ; i < tokens . size ( ) ; + + i ) {
piece = llama_token_to_piece ( ctx , tokens [ i ] ) ;
// remove the leading space of the first non-BOS token
if ( ( ( tokens [ 0 ] = = bos_id & & i = = 1 ) | | ( tokens [ 0 ] ! = bos_id & & i = = 0 ) ) & & piece [ 0 ] = = ' ' ) {
piece = piece . substr ( 1 ) ;
}
result + = piece ;
}
return result ;
}
std : : string llama_detokenize_bpe ( llama_context * ctx , const std : : vector < llama_token > & tokens ) {
std : : string piece ;
std : : string result ;
for ( size_t i = 0 ; i < tokens . size ( ) ; + + i ) {
piece = llama_token_to_piece ( ctx , tokens [ i ] ) ;
result + = piece ;
}
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// NOTE: the original tokenizer decodes bytes after collecting the pieces.
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return result ;
}
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bool llama_should_add_bos_token ( const llama_model * model ) {
const int add_bos = llama_add_bos_token ( model ) ;
return add_bos ! = - 1 ? bool ( add_bos ) : ( llama_vocab_type ( model ) = = LLAMA_VOCAB_TYPE_SPM ) ;
}
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//
// YAML utils
//
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// returns true if successful, false otherwise
bool create_directory_with_parents ( const std : : string & path ) {
# ifdef _WIN32
std : : wstring_convert < std : : codecvt_utf8 < wchar_t > > converter ;
std : : wstring wpath = converter . from_bytes ( path ) ;
// if the path already exists, check whether it's a directory
const DWORD attributes = GetFileAttributesW ( wpath . c_str ( ) ) ;
if ( ( attributes ! = INVALID_FILE_ATTRIBUTES ) & & ( attributes & FILE_ATTRIBUTE_DIRECTORY ) ) {
return true ;
}
size_t pos_slash = 0 ;
// process path from front to back, procedurally creating directories
while ( ( pos_slash = path . find ( ' \\ ' , pos_slash ) ) ! = std : : string : : npos ) {
const std : : wstring subpath = wpath . substr ( 0 , pos_slash ) ;
const wchar_t * test = subpath . c_str ( ) ;
const bool success = CreateDirectoryW ( test , NULL ) ;
if ( ! success ) {
const DWORD error = GetLastError ( ) ;
// if the path already exists, ensure that it's a directory
if ( error = = ERROR_ALREADY_EXISTS ) {
const DWORD attributes = GetFileAttributesW ( subpath . c_str ( ) ) ;
if ( attributes = = INVALID_FILE_ATTRIBUTES | | ! ( attributes & FILE_ATTRIBUTE_DIRECTORY ) ) {
return false ;
}
} else {
return false ;
}
}
pos_slash + = 1 ;
}
return true ;
# else
// if the path already exists, check whether it's a directory
struct stat info ;
if ( stat ( path . c_str ( ) , & info ) = = 0 ) {
return S_ISDIR ( info . st_mode ) ;
}
size_t pos_slash = 1 ; // skip leading slashes for directory creation
// process path from front to back, procedurally creating directories
while ( ( pos_slash = path . find ( ' / ' , pos_slash ) ) ! = std : : string : : npos ) {
const std : : string subpath = path . substr ( 0 , pos_slash ) ;
struct stat info ;
// if the path already exists, ensure that it's a directory
if ( stat ( subpath . c_str ( ) , & info ) = = 0 ) {
if ( ! S_ISDIR ( info . st_mode ) ) {
return false ;
}
} else {
// create parent directories
const int ret = mkdir ( subpath . c_str ( ) , 0755 ) ;
if ( ret ! = 0 ) {
return false ;
}
}
pos_slash + = 1 ;
}
return true ;
# endif // _WIN32
}
void dump_vector_float_yaml ( FILE * stream , const char * prop_name , const std : : vector < float > & data ) {
if ( data . empty ( ) ) {
fprintf ( stream , " %s: \n " , prop_name ) ;
return ;
}
fprintf ( stream , " %s: [ " , prop_name ) ;
for ( size_t i = 0 ; i < data . size ( ) - 1 ; + + i ) {
fprintf ( stream , " %e, " , data [ i ] ) ;
}
fprintf ( stream , " %e] \n " , data . back ( ) ) ;
}
void dump_vector_int_yaml ( FILE * stream , const char * prop_name , const std : : vector < int > & data ) {
if ( data . empty ( ) ) {
fprintf ( stream , " %s: \n " , prop_name ) ;
return ;
}
fprintf ( stream , " %s: [ " , prop_name ) ;
for ( size_t i = 0 ; i < data . size ( ) - 1 ; + + i ) {
fprintf ( stream , " %d, " , data [ i ] ) ;
}
fprintf ( stream , " %d] \n " , data . back ( ) ) ;
}
void dump_string_yaml_multiline ( FILE * stream , const char * prop_name , const char * data ) {
std : : string data_str ( data = = NULL ? " " : data ) ;
if ( data_str . empty ( ) ) {
fprintf ( stream , " %s: \n " , prop_name ) ;
return ;
}
size_t pos_start = 0 ;
size_t pos_found = 0 ;
if ( ! data_str . empty ( ) & & ( std : : isspace ( data_str [ 0 ] ) | | std : : isspace ( data_str . back ( ) ) ) ) {
data_str = std : : regex_replace ( data_str , std : : regex ( " \n " ) , " \\ n " ) ;
data_str = std : : regex_replace ( data_str , std : : regex ( " \" " ) , " \\ \" " ) ;
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data_str = std : : regex_replace ( data_str , std : : regex ( R " ( \\ [^n " ] ) " ), R " ( \ $ & ) " );
2023-08-28 15:59:39 +00:00
data_str = " \" " + data_str + " \" " ;
fprintf ( stream , " %s: %s \n " , prop_name , data_str . c_str ( ) ) ;
return ;
}
if ( data_str . find ( ' \n ' ) = = std : : string : : npos ) {
fprintf ( stream , " %s: %s \n " , prop_name , data_str . c_str ( ) ) ;
return ;
}
fprintf ( stream , " %s: | \n " , prop_name ) ;
while ( ( pos_found = data_str . find ( ' \n ' , pos_start ) ) ! = std : : string : : npos ) {
fprintf ( stream , " %s \n " , data_str . substr ( pos_start , pos_found - pos_start ) . c_str ( ) ) ;
pos_start = pos_found + 1 ;
}
}
std : : string get_sortable_timestamp ( ) {
using clock = std : : chrono : : system_clock ;
const clock : : time_point current_time = clock : : now ( ) ;
const time_t as_time_t = clock : : to_time_t ( current_time ) ;
char timestamp_no_ns [ 100 ] ;
std : : strftime ( timestamp_no_ns , 100 , " %Y_%m_%d-%H_%M_%S " , std : : localtime ( & as_time_t ) ) ;
const int64_t ns = std : : chrono : : duration_cast < std : : chrono : : nanoseconds > (
current_time . time_since_epoch ( ) % 1000000000 ) . count ( ) ;
train : mem usage and other improvements (#2439)
* fix track_max_mem in forward_batch_wo_cache_flash_attn_train
* remove unnecessary Adam(W) optimizer tensors.
reduces optimizer memory overhead from 7*modelsize to 2*modelsize.
additionally allows to optimize models with more than 2^31 parameters by replacing int with int64_t.
bumps training checkpoint file version, but old checkpoints can still be read.
new version with less tensors is saved.
* add gradient clipping to AdamW
* Fix reset of unused g->nodes and g->grads to NULL
* implement gradient checkpointing for training
reduces memory overhead from O(n_layer) to O(sqrt(n_layer))
as explained in readme of https://github.com/cybertronai/gradient-checkpointing
* remove unused compute buffer 3
* add and use function ggml_build_backward_expand to avoid stack overflows with large maximum number of nodes
GGML_API void ggml_build_backward_expand(struct ggml_context * ctx, struct ggml_cgraph * gf, struct ggml_cgraph * gb, bool keep);
* change AdamW decay parameter to work like the torch AdamW decay parameter
It is now relative to Adam learning rate `alpha*sched`.
Before that it was relative to `sched` only.
`alpha` being the maximum learning rate and `sched` being a scaling parameter in [0..1]
* change default AdamW weight decay parameter used in training to 0.1 as used in nanoGPT
* change default AdamW weight decay parameter defined in ggml to 0.0, making Adam default instead of AdamW
btw: the default weight decay parameter for torch.optim.AdamW is 0.01
* bug fixes for cross entropy loss
ggml_cross_entropy_loss: sums where not correctly added in workload of each thread
ggml_cross_entropy_loss_back: simplify backward process, reducing numerical issues
guard usage of exp f16 lookup in cross entropy by #define GGML_CROSS_ENTROPY_EXP_FP16
cross entropy loss is only used once during training, but it is quite sensitive to numerical errors introduced by exp-f16-lookup.
so exp-f16-lookup for cross entropy loss is disabled by default, trading better gradients for very slightly worse runtime performance.
* fix test-grad0 for cross_entropy_loss
the second argument to cross_entropy_loss must sum up to 1 for each row
* fix test-grad0 for soft_max
dont use only sum as aggregation, because sum of softmax is always 1 -> finite differences should not work
instead use sum(log(soft_max()*(1-eps)+eps)); use eps to avoid log(0)
* improve finite differences of test-grad0 by using double instead of float
* change cross_entropy_loss to output average over all rows
this helps keeping the loss and gradients in a sane range
* improve gradient checkpointing
sqrt(n_layers) is only the best checkpoint step when mem size of checkpoints and mem size of layers are equal.
since layers require more memory than the single-tensor-checkpoint we use, the optimal values are compute different:
```
given: n, u, v
objective: minimize(a*u+b*v) where a*b=n, a>0, b>0
b=n/a
minimize(a*u+v*n/a)
diff(a*u+v*n/a, a) = u - (v*n/a)/a
diff(a*u+v*n/a, a) == 0
u - (v*n/a)/a == 0
u == v*n/(a*a)
u*a*a = v*n
a*a = v*n/u
a = sqrt(n*v/u)
```
this change results in more checkpoints, requiring less layers to store between checkpoints, overall improving memory usage.
* disable gradient checkpointing debug output
* llama : fix rope usage in train-text-from-scratch after ChatGLM change
* add more training parameters:
--enable-restart N Only for Adam optimizer. Enable restarts of cos-decay
--disable-restart N Only for Adam optimizer. Disable restarts of cos-decay
--opt-past N Number of optimization iterations to track for delta convergence test. Disabled when zero.
--opt-delta N Maximum delta for delta convergence test. Disabled when <= zero.
--opt-max-no-improvement N Maximum number of optimization iterations with no improvement. Disabled when <= zero.
--adam-epsf N AdamW epsilon for convergence test. Disabled when <= zero.
--adam-min-alpha N Adam minimum learning rate alpha, usually 0.1 * alpha
* replace memcpy with reshape operation so that the graph is not cut at the input
this makes it possible to store other values into the input tensor and then simply recompute the graph without rebuilding it
* remove unused function argument from get_example_targets_batch
* measure and print total training time
* add optimization callback to ggml_opt_resume_g
this callback is called before each iteration with custom data and pointer to learning schedule parameter (only used in Adam(W)).
can be used for dynamic learning schedule and setting input data for batches before each iteration
* use optimization callback in training
allows dynamic learning schedule and different batch data for each iteration without relying on low n_iter and high n_examples parameters
reduces runtime by avoiding restart of optimization function and improves training convergence by providing a different batch for each iteration
* add minimum number of tensor dimensions to apply weight decay (default 2)
this allows to not apply weight decay to bias parameters
* rename training parameter cos-decay-alpha to cos-decay-min and clarify that adam-min-alpha also applies to warmup
* fix increase of model.train_samples and model.train_tokens
now that each optimizer iteration gets its own batch we need to multiply by number of opt iterations
* change sampling parameters for prediction after training to defaults of common.h
and clarify what is context for prediction and what are generated tokens
* tighten abs error bounds for cross_entropy_loss in test-grad0
* add conditional compilation of using F16 exp in flash attention
uncomment `// #define GGML_FLASH_ATTN_EXP_FP16` to enable usage of f16 exp in flash attention
* tighten abs error bounds for flash_attn in test-grad0
* tighten abs error bounds for sqrt in test-grad0
* remove out-commented vectorized code of opt_adam
the vectorized code might be bit faster for low number of parameters, but it had a big memory usage overhead
* ggml : update ggml_rms_norm_back with configurable eps
* llama training : fix ggml_rms_norm_back calls to pass configurable eps
* remove trailing whitespace
* add train function using automatic gradient checkpointing backward pass and allocator
* in train function replace add_inplace by regular add
because using add_inplace seems to result in different gradients
* don't use allocate hash_map on context
because the context has no_alloc=True when using memory allocator resulting in NULL data pointers
* correctly clone reshape and permute operations by also cloning tensor->nb values
* fix variable name and add missing type cast
* terminate recursive tensor cloning when reaching tensor without src tensors
* correctly clone view tensors by setting data pointers
without this the checkpointing would only work when being used together with memory allocator
* fix variable names
* swap arguments to commutative ops to be the same as in `forward_batch_wo_cache_flash_attn`
* add input tensors as checkpoints
so that recursive tensor cloning of gradient checkpointing terminates on input tensors
* fix variable name and add missing boolean negation
* make sure some tensors are not reallocated by inserting new temporary nodes depending on them:
output and parameter gradient tensors need to be available at the end of the graph execution
parameter gradient tensors also need to be available before the graph execution because they are set to zero before each optimizer iteration
checkpoint tensors are allocated all together to reduce memory allocator fragmentation
afterwards, in addition to the temporary nodes, we also need to reset the temporary leafs
* fix ASSERT to work with zero layers
* add training options whether to use allocator and/or unified training function
* integrate unified training function which may use memory allocator
the unified training function also supports arguments whether to use flash attention and/or gradient checkpointing
* format name of cloned tensors with " (clone)" suffix
* set names for tensors in unified train function for easier debugging
* allocate graph on context using ggml_new_graph
* remove handwritten training functions
* remove unused training parameters "use_scratch" and "use_unified"
* remove trailing whitespace
* remove unused train params: mem_compute1_gb & mem_compute2_gb
mem_compute_gb is used for compute when automatic memory allocator is not enabled, otherwise it can be very small to only hold the tensor definitions
mem_compute0_gb is used for automatic memory allocator (as long as measurement of max required size is not implemented)
* remove unused forward_batch function
* add debug asserts in ggml_allocr_alloc to some common pitfalls when using this function directly
* only use ggml_allocr_alloc when tensor has NULL data and is no view
* fix test when to create temporary backward graph
temporary backward graph is only necessary when using checkpointing
* fix memory "leak" in optimizers
each iteration a new cplan with new memory for work data was allocated.
now cplan creation only happens at the start of optimization, with each iteration reusing the cplan and its work data.
* reverse order of for loop in ggml_build_backward_expand to save memory when using gradient checkpointing and allocator
with this loop order gradient checkpointing with allocator on 16 layer model saves 13% memory; 2 layer memory it saves 2% memory.
the computation results are the same
* add missing lctx argument to get_example_targets_batch
* implement llama model file saving using gguf
checkpoint loading and saving disabled, to be replaced by loading and saving via gguf
* implement loading/saving of checkpointing files using GGUF
* bug fixes
* add checkpoint file version for future compatibility
* update readme with gguf filenames
* save & load opt->just_initialized value
* add first draft for checkpoint conversion script
* add gguf arch and ftype
* save opt parameter counter as uint64
* add gguf key and tensor names for optimizer and training
* add layer_norm_rms_eps to checkpoint convert script
* use same GGUF_GET_KEY macro as in llama.cpp
* use norm_rms_eps, and rope parameters and command line options to set them
* fix memory corruption bug in gguf
ctx->kv and ctx->infos was reallocated using not-aligned realloc, but freed with aligned free.
to fix this a GGML_ALIGNED_REALLOC was added, but there is no posix_memalign_realloc function.
so on non-windows and non-mingw32 platforms we fall back to aligned malloc, followed by copying
and freeing the old data.
* add gguf example cmake file
* bug fixes in tokenize_file
* bug fixes in load_llama_model_gguf
* bug fix: init model when no checkpoint was loaded
* bug fix in read_tensor_by_name
* bug fix in load_opt_context_gguf
* avoid printing lots of spaced on the unusual case that loss gets nan
* set name of tensors with empty name from what was read from gguf
* remove trailing whitespace
* print data checksums before saving and after loading to verify correctness
* bug fixes for convert-train-checkpoint-to-gguf
* temporarily add code to write old checkpoint files
used to verify that old checkpoint files are correctly converted to gguf
* bug fixes for convert-train-checkpoint-to-gguf.py loading checkpoints with opt_version=0
* remove code used to verify correctness of checkpoint file conversion
* remove trailing whitespace
* remove prediction related code
use main for prediction, it is better optimized
* update train-text-from-scratch README.md
* fix non-windows GGML_ALIGNED_REALLOC
* add missing blank line at end of file
* remove GGML_ALIGNED_REALLOC and use normal malloc/realloc/free for gguf ctx->kv & ctx->infos
* train : fix compile warnings
---------
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
2023-08-28 19:51:47 +00:00
char timestamp_ns [ 11 ] ;
snprintf ( timestamp_ns , 11 , " %09 " PRId64 , ns ) ;
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return std : : string ( timestamp_no_ns ) + " . " + std : : string ( timestamp_ns ) ;
}
void dump_non_result_info_yaml ( FILE * stream , const gpt_params & params , const llama_context * lctx ,
const std : : string & timestamp , const std : : vector < int > & prompt_tokens , const char * model_desc ) {
2023-10-20 18:07:23 +00:00
const llama_sampling_params & sparams = params . sparams ;
2023-10-11 19:35:46 +00:00
2023-11-02 06:50:16 +00:00
fprintf ( stream , " build_commit: %s \n " , LLAMA_COMMIT ) ;
fprintf ( stream , " build_number: %d \n " , LLAMA_BUILD_NUMBER ) ;
2023-10-20 18:07:23 +00:00
fprintf ( stream , " cpu_has_arm_fma: %s \n " , ggml_cpu_has_arm_fma ( ) ? " true " : " false " ) ;
fprintf ( stream , " cpu_has_avx: %s \n " , ggml_cpu_has_avx ( ) ? " true " : " false " ) ;
2023-12-30 08:07:48 +00:00
fprintf ( stream , " cpu_has_avx_vnni: %s \n " , ggml_cpu_has_avx_vnni ( ) ? " true " : " false " ) ;
2023-10-20 18:07:23 +00:00
fprintf ( stream , " cpu_has_avx2: %s \n " , ggml_cpu_has_avx2 ( ) ? " true " : " false " ) ;
fprintf ( stream , " cpu_has_avx512: %s \n " , ggml_cpu_has_avx512 ( ) ? " true " : " false " ) ;
2023-08-28 15:59:39 +00:00
fprintf ( stream , " cpu_has_avx512_vbmi: %s \n " , ggml_cpu_has_avx512_vbmi ( ) ? " true " : " false " ) ;
fprintf ( stream , " cpu_has_avx512_vnni: %s \n " , ggml_cpu_has_avx512_vnni ( ) ? " true " : " false " ) ;
2024-03-26 00:16:01 +00:00
fprintf ( stream , " cpu_has_cuda: %s \n " , ggml_cpu_has_cuda ( ) ? " true " : " false " ) ;
2024-01-31 10:44:19 +00:00
fprintf ( stream , " cpu_has_vulkan: %s \n " , ggml_cpu_has_vulkan ( ) ? " true " : " false " ) ;
2023-10-20 18:07:23 +00:00
fprintf ( stream , " cpu_has_clblast: %s \n " , ggml_cpu_has_clblast ( ) ? " true " : " false " ) ;
2024-01-31 00:04:37 +00:00
fprintf ( stream , " cpu_has_kompute: %s \n " , ggml_cpu_has_kompute ( ) ? " true " : " false " ) ;
2023-10-20 18:07:23 +00:00
fprintf ( stream , " cpu_has_fma: %s \n " , ggml_cpu_has_fma ( ) ? " true " : " false " ) ;
fprintf ( stream , " cpu_has_gpublas: %s \n " , ggml_cpu_has_gpublas ( ) ? " true " : " false " ) ;
fprintf ( stream , " cpu_has_neon: %s \n " , ggml_cpu_has_neon ( ) ? " true " : " false " ) ;
fprintf ( stream , " cpu_has_f16c: %s \n " , ggml_cpu_has_f16c ( ) ? " true " : " false " ) ;
fprintf ( stream , " cpu_has_fp16_va: %s \n " , ggml_cpu_has_fp16_va ( ) ? " true " : " false " ) ;
fprintf ( stream , " cpu_has_wasm_simd: %s \n " , ggml_cpu_has_wasm_simd ( ) ? " true " : " false " ) ;
fprintf ( stream , " cpu_has_blas: %s \n " , ggml_cpu_has_blas ( ) ? " true " : " false " ) ;
fprintf ( stream , " cpu_has_sse3: %s \n " , ggml_cpu_has_sse3 ( ) ? " true " : " false " ) ;
fprintf ( stream , " cpu_has_vsx: %s \n " , ggml_cpu_has_vsx ( ) ? " true " : " false " ) ;
2024-02-11 13:22:33 +00:00
fprintf ( stream , " cpu_has_matmul_int8: %s \n " , ggml_cpu_has_matmul_int8 ( ) ? " true " : " false " ) ;
2023-08-28 15:59:39 +00:00
# ifdef NDEBUG
fprintf ( stream , " debug: false \n " ) ;
# else
fprintf ( stream , " debug: true \n " ) ;
# endif // NDEBUG
fprintf ( stream , " model_desc: %s \n " , model_desc ) ;
2023-09-28 19:42:38 +00:00
fprintf ( stream , " n_vocab: %d # output size of the final layer, 32001 for some models \n " , llama_n_vocab ( llama_get_model ( lctx ) ) ) ;
2023-08-28 15:59:39 +00:00
# ifdef __OPTIMIZE__
fprintf ( stream , " optimize: true \n " ) ;
# else
fprintf ( stream , " optimize: false \n " ) ;
# endif // __OPTIMIZE__
fprintf ( stream , " time: %s \n " , timestamp . c_str ( ) ) ;
fprintf ( stream , " \n " ) ;
fprintf ( stream , " ############### \n " ) ;
fprintf ( stream , " # User Inputs # \n " ) ;
fprintf ( stream , " ############### \n " ) ;
fprintf ( stream , " \n " ) ;
fprintf ( stream , " alias: %s # default: unknown \n " , params . model_alias . c_str ( ) ) ;
fprintf ( stream , " batch_size: %d # default: 512 \n " , params . n_batch ) ;
2023-10-11 19:35:46 +00:00
dump_string_yaml_multiline ( stream , " cfg_negative_prompt " , sparams . cfg_negative_prompt . c_str ( ) ) ;
fprintf ( stream , " cfg_scale: %f # default: 1.0 \n " , sparams . cfg_scale ) ;
2023-08-28 15:59:39 +00:00
fprintf ( stream , " chunks: %d # default: -1 (unlimited) \n " , params . n_chunks ) ;
fprintf ( stream , " color: %s # default: false \n " , params . use_color ? " true " : " false " ) ;
fprintf ( stream , " ctx_size: %d # default: 512 \n " , params . n_ctx ) ;
fprintf ( stream , " escape: %s # default: false \n " , params . escape ? " true " : " false " ) ;
fprintf ( stream , " file: # never logged, see prompt instead. Can still be specified for input. \n " ) ;
2023-10-20 18:07:23 +00:00
fprintf ( stream , " frequency_penalty: %f # default: 0.0 \n " , sparams . penalty_freq ) ;
dump_string_yaml_multiline ( stream , " grammar " , sparams . grammar . c_str ( ) ) ;
2023-08-28 15:59:39 +00:00
fprintf ( stream , " grammar-file: # never logged, see grammar instead. Can still be specified for input. \n " ) ;
fprintf ( stream , " hellaswag: %s # default: false \n " , params . hellaswag ? " true " : " false " ) ;
2023-09-01 13:34:50 +00:00
fprintf ( stream , " hellaswag_tasks: %zu # default: 400 \n " , params . hellaswag_tasks ) ;
2023-08-28 15:59:39 +00:00
2023-10-23 19:40:03 +00:00
const auto logit_bias_eos = sparams . logit_bias . find ( llama_token_eos ( llama_get_model ( lctx ) ) ) ;
2023-10-11 19:35:46 +00:00
const bool ignore_eos = logit_bias_eos ! = sparams . logit_bias . end ( ) & & logit_bias_eos - > second = = - INFINITY ;
2023-08-28 15:59:39 +00:00
fprintf ( stream , " ignore_eos: %s # default: false \n " , ignore_eos ? " true " : " false " ) ;
dump_string_yaml_multiline ( stream , " in_prefix " , params . input_prefix . c_str ( ) ) ;
fprintf ( stream , " in_prefix_bos: %s # default: false \n " , params . input_prefix_bos ? " true " : " false " ) ;
dump_string_yaml_multiline ( stream , " in_suffix " , params . input_prefix . c_str ( ) ) ;
fprintf ( stream , " instruct: %s # default: false \n " , params . instruct ? " true " : " false " ) ;
fprintf ( stream , " interactive: %s # default: false \n " , params . interactive ? " true " : " false " ) ;
fprintf ( stream , " interactive_first: %s # default: false \n " , params . interactive_first ? " true " : " false " ) ;
fprintf ( stream , " keep: %d # default: 0 \n " , params . n_keep ) ;
fprintf ( stream , " logdir: %s # default: unset (no logging) \n " , params . logdir . c_str ( ) ) ;
fprintf ( stream , " logit_bias: \n " ) ;
2023-10-11 19:35:46 +00:00
for ( std : : pair < llama_token , float > lb : sparams . logit_bias ) {
2023-08-28 15:59:39 +00:00
if ( ignore_eos & & lb . first = = logit_bias_eos - > first ) {
continue ;
}
fprintf ( stream , " %d: %f " , lb . first , lb . second ) ;
}
train : finetune LORA (#2632)
* fix track_max_mem in forward_batch_wo_cache_flash_attn_train
* remove unnecessary Adam(W) optimizer tensors.
reduces optimizer memory overhead from 7*modelsize to 2*modelsize.
additionally allows to optimize models with more than 2^31 parameters by replacing int with int64_t.
bumps training checkpoint file version, but old checkpoints can still be read.
new version with less tensors is saved.
* add gradient clipping to AdamW
* Fix reset of unused g->nodes and g->grads to NULL
* implement gradient checkpointing for training
reduces memory overhead from O(n_layer) to O(sqrt(n_layer))
as explained in readme of https://github.com/cybertronai/gradient-checkpointing
* remove unused compute buffer 3
* add and use function ggml_build_backward_expand to avoid stack overflows with large maximum number of nodes
GGML_API void ggml_build_backward_expand(struct ggml_context * ctx, struct ggml_cgraph * gf, struct ggml_cgraph * gb, bool keep);
* change AdamW decay parameter to work like the torch AdamW decay parameter
It is now relative to Adam learning rate `alpha*sched`.
Before that it was relative to `sched` only.
`alpha` being the maximum learning rate and `sched` being a scaling parameter in [0..1]
* change default AdamW weight decay parameter used in training to 0.1 as used in nanoGPT
* change default AdamW weight decay parameter defined in ggml to 0.0, making Adam default instead of AdamW
btw: the default weight decay parameter for torch.optim.AdamW is 0.01
* bug fixes for cross entropy loss
ggml_cross_entropy_loss: sums where not correctly added in workload of each thread
ggml_cross_entropy_loss_back: simplify backward process, reducing numerical issues
guard usage of exp f16 lookup in cross entropy by #define GGML_CROSS_ENTROPY_EXP_FP16
cross entropy loss is only used once during training, but it is quite sensitive to numerical errors introduced by exp-f16-lookup.
so exp-f16-lookup for cross entropy loss is disabled by default, trading better gradients for very slightly worse runtime performance.
* fix test-grad0 for cross_entropy_loss
the second argument to cross_entropy_loss must sum up to 1 for each row
* fix test-grad0 for soft_max
dont use only sum as aggregation, because sum of softmax is always 1 -> finite differences should not work
instead use sum(log(soft_max()*(1-eps)+eps)); use eps to avoid log(0)
* improve finite differences of test-grad0 by using double instead of float
* change cross_entropy_loss to output average over all rows
this helps keeping the loss and gradients in a sane range
* improve gradient checkpointing
sqrt(n_layers) is only the best checkpoint step when mem size of checkpoints and mem size of layers are equal.
since layers require more memory than the single-tensor-checkpoint we use, the optimal values are compute different:
```
given: n, u, v
objective: minimize(a*u+b*v) where a*b=n, a>0, b>0
b=n/a
minimize(a*u+v*n/a)
diff(a*u+v*n/a, a) = u - (v*n/a)/a
diff(a*u+v*n/a, a) == 0
u - (v*n/a)/a == 0
u == v*n/(a*a)
u*a*a = v*n
a*a = v*n/u
a = sqrt(n*v/u)
```
this change results in more checkpoints, requiring less layers to store between checkpoints, overall improving memory usage.
* disable gradient checkpointing debug output
* llama : fix rope usage in train-text-from-scratch after ChatGLM change
* add more training parameters:
--enable-restart N Only for Adam optimizer. Enable restarts of cos-decay
--disable-restart N Only for Adam optimizer. Disable restarts of cos-decay
--opt-past N Number of optimization iterations to track for delta convergence test. Disabled when zero.
--opt-delta N Maximum delta for delta convergence test. Disabled when <= zero.
--opt-max-no-improvement N Maximum number of optimization iterations with no improvement. Disabled when <= zero.
--adam-epsf N AdamW epsilon for convergence test. Disabled when <= zero.
--adam-min-alpha N Adam minimum learning rate alpha, usually 0.1 * alpha
* replace memcpy with reshape operation so that the graph is not cut at the input
this makes it possible to store other values into the input tensor and then simply recompute the graph without rebuilding it
* remove unused function argument from get_example_targets_batch
* measure and print total training time
* add optimization callback to ggml_opt_resume_g
this callback is called before each iteration with custom data and pointer to learning schedule parameter (only used in Adam(W)).
can be used for dynamic learning schedule and setting input data for batches before each iteration
* use optimization callback in training
allows dynamic learning schedule and different batch data for each iteration without relying on low n_iter and high n_examples parameters
reduces runtime by avoiding restart of optimization function and improves training convergence by providing a different batch for each iteration
* add minimum number of tensor dimensions to apply weight decay (default 2)
this allows to not apply weight decay to bias parameters
* rename training parameter cos-decay-alpha to cos-decay-min and clarify that adam-min-alpha also applies to warmup
* fix increase of model.train_samples and model.train_tokens
now that each optimizer iteration gets its own batch we need to multiply by number of opt iterations
* change sampling parameters for prediction after training to defaults of common.h
and clarify what is context for prediction and what are generated tokens
* tighten abs error bounds for cross_entropy_loss in test-grad0
* add conditional compilation of using F16 exp in flash attention
uncomment `// #define GGML_FLASH_ATTN_EXP_FP16` to enable usage of f16 exp in flash attention
* tighten abs error bounds for flash_attn in test-grad0
* tighten abs error bounds for sqrt in test-grad0
* remove out-commented vectorized code of opt_adam
the vectorized code might be bit faster for low number of parameters, but it had a big memory usage overhead
* ggml : update ggml_rms_norm_back with configurable eps
* llama training : fix ggml_rms_norm_back calls to pass configurable eps
* remove trailing whitespace
* add train function using automatic gradient checkpointing backward pass and allocator
* in train function replace add_inplace by regular add
because using add_inplace seems to result in different gradients
* don't use allocate hash_map on context
because the context has no_alloc=True when using memory allocator resulting in NULL data pointers
* correctly clone reshape and permute operations by also cloning tensor->nb values
* fix variable name and add missing type cast
* terminate recursive tensor cloning when reaching tensor without src tensors
* correctly clone view tensors by setting data pointers
without this the checkpointing would only work when being used together with memory allocator
* fix variable names
* swap arguments to commutative ops to be the same as in `forward_batch_wo_cache_flash_attn`
* add input tensors as checkpoints
so that recursive tensor cloning of gradient checkpointing terminates on input tensors
* fix variable name and add missing boolean negation
* make sure some tensors are not reallocated by inserting new temporary nodes depending on them:
output and parameter gradient tensors need to be available at the end of the graph execution
parameter gradient tensors also need to be available before the graph execution because they are set to zero before each optimizer iteration
checkpoint tensors are allocated all together to reduce memory allocator fragmentation
afterwards, in addition to the temporary nodes, we also need to reset the temporary leafs
* fix ASSERT to work with zero layers
* add training options whether to use allocator and/or unified training function
* integrate unified training function which may use memory allocator
the unified training function also supports arguments whether to use flash attention and/or gradient checkpointing
* format name of cloned tensors with " (clone)" suffix
* set names for tensors in unified train function for easier debugging
* allocate graph on context using ggml_new_graph
* remove handwritten training functions
* remove unused training parameters "use_scratch" and "use_unified"
* remove trailing whitespace
* remove unused train params: mem_compute1_gb & mem_compute2_gb
mem_compute_gb is used for compute when automatic memory allocator is not enabled, otherwise it can be very small to only hold the tensor definitions
mem_compute0_gb is used for automatic memory allocator (as long as measurement of max required size is not implemented)
* remove unused forward_batch function
* add debug asserts in ggml_allocr_alloc to some common pitfalls when using this function directly
* only use ggml_allocr_alloc when tensor has NULL data and is no view
* fix test when to create temporary backward graph
temporary backward graph is only necessary when using checkpointing
* fix memory "leak" in optimizers
each iteration a new cplan with new memory for work data was allocated.
now cplan creation only happens at the start of optimization, with each iteration reusing the cplan and its work data.
* reverse order of for loop in ggml_build_backward_expand to save memory when using gradient checkpointing and allocator
with this loop order gradient checkpointing with allocator on 16 layer model saves 13% memory; 2 layer memory it saves 2% memory.
the computation results are the same
* add API functions to access llama model tensors
* add stub example for finetuning, based on train-text-from-scratch
* move and remove code
* add API functions to access remaining model parameters:
mult, head and rot
* first draft for LORA finetune training
* remove const model and layer arguments in API functions for accessing model tensors
* bug fixes to make finetune compile
automatic allocator does not work yet
* add debug prints for training memory improvements
* fix names of lora tensors
* avoid stack overflow resulting from big ggml_cgraph
replace stack allocation and ggml_build_forward by ggml_new_graph in combination with ggml_build_forward_expand
* replace llama API functions to get model tensors by one function to get model tensor by name
LLAMA_API struct ggml_tensor * llama_get_model_tensor(struct llama_model * model, const char * name);
* remove unused call to not existing llama_get_layer_from_model
* implement ggml_compute_forward_out_prod_q_f32
* remove trailing whitespace
* add lora finetune support on quantized base model tensors
* add ggml_add_cast API function
this function works like ggml_add, but accepts a data type for the resulting tensor.
only supported for quantized src0 input.
* use ggml_add_cast in finetuning
lora-applied weights will now have data type F32, which improves gradients when finetuning quantized base models
* bug fix: actually use result type passed to ggml_add_cast
* make sure base model tensors data cannot be used in viewable operations
memory allocator would try to make lora application inplace on base model tensors.
since those are memory mapped this will result in memory access violations
* fix bug in ggml_out_prod which resulted in wrong n_dims of result tensors
* avoid keeping in memory ALL of the gradients
The problem here stems from ggml_graph_reset. This function is called in the optimization function, before each graph computation, to reset the gradients to zero. This required a unique memory slot for each gradient: allocating memory from a previosly freed memory location might lead to non-zero input gradients.
During ggml_compute_backward the gradients are build stepwise by adding or substracting new values, starting from a OP_NONE tensor which needs to contain zero-values. This requires the graph reset.
To avoid this I now remember in ggml_build_backward_expand the original OP_NONE gradient tensors in a hash table, which is passed to ggml_compute_backward. There instead of using add (or sub or similar) I test whether the existing gradient to be changed is a zero-valued-tensor by looking up its existence in the hash table. When it is such a zero-tensor it will not be modified, but replaced by the value to be added, otherwise the regular add (not inplace, allocator will take care of this) will be used. This way none of those zero-tensor values will be necessary in the final backward graph and more importantly they won't need a unique memory slot, just to make them zero.
* remove trailing whitespace
* remove debug prints and function to compute tensor data hash
* improve optimization iteration prints
* adjust maximal values to support finetuning 3B models
* change default finetune params lora_r and lora_alpha to match the n_rank parameters of 4
* bug fix: make sure finetune input gradient is allocated at begin and kept until end
* remove unnecessary src tensor from ggml_get_rows_back
we don't need data of src[2] for computation, only to setup the correct output shape.
remove dependency on src[2], so that allocator can work more freely.
the computational graph is still completely determined, because the output shape is naturally included.
this is similar to how ggml_reshape does it.
* remove unnecessary src tensor from ggml_repeat & ggml_repeat_back
we don't need data of src[1] for computation, only to setup the correct output shape.
remove dependency on src[1], so that allocator can work more freely.
the computational graph is still completely determined, because the output shape is naturally included
* resolve todo
allocator will only make it inplace when they are of the same type
* mixing multiple LORA adapters is now possible
pass more than one '--lora FNAME' argument to apply more than one LORA.
use '--lora-scaled FNAME S' when you want to specify a user-defined scale for an adapter.
* add option to save finetune output every N iterations
* also save latest finetune output with ITERATION="LATEST" and print where files are saved
saving with LATEST makes it easier to resume training from the latest checkpoint
the string "LATEST" can be configured with command line option "--fn-latest STR"
* update checkpoint train stats before saving via "--save-every"
* add command line option `--rank-wo N` for rank of wo tensor
* update finetune README
* fix dump_non_result_info_yaml to output multiple lora adapters
* bug fix: replace GGML_TYPE_SIZE[t] by ggml_type_size(t)
* replace llama_n_mult by llama_n_ff
* finetune bug fixes to compile with merged in code from master
* remove prediction related code to reduce duplicated code with main
use main instead
* reduce large memory overhead in train-text-from-scratch
all gradients had to be pinned so that graph_reset works correctly.
this is no longer necessary with the changes to ggml_compute_backward introduced in this PR.
* add comment explaining why finetune checkpoints are allocated in one block
* make default value of float member a float literal
* handle rms_norm and rope parameters the same as in train-text-from-scratch
* remove unused code
* remove vocab related code as it is unnecessary
* add LLM_KV_TRAINING_TYPE to train-text-from-scratch checkpoints
so that they can be differentiated from lora finetune checkpoints
* add gguf constants and load/save functions from train-text-from-scratch
* add load & save lora finetune checkpoints via gguf
* add python script to convert old finetune checkpoint files to gguf
* remove old checkpoint save & load code
* remove code to print data checksums which was used to verify correctness of new gguf code
* omit tokenization when training is disabled, only save llama lora adapter
training can be disabled by passing '-n 0' to finetune
* remove trailing whitespace
* update README.md
* implement ggml_compute_forward_repeat_f16
* avoid stack overflow of large cgraphs in test-grad0
* add ggml API functions ggml_unravel_index, ggml_get_i32_nd and its analogs for set and for f32
ggml_get_i32_1d, ggml_set_i32_1d, ggml_get_f32_1d, ggml_set_f32_1d now support non-contiguous tensors.
in case of non-contiguous tensor, the 1d index is unraveled into a multi index using ggml_unravel_index to be passed to '_nd' function equivalent.
this fixes a bug in test-grad0 which happens due to ggml_build_backward not building purely contiguous tensors anymore
* increase test-grad0 context mem size to accommodate for bigger cgraph
* add sanity check to ggml_compute_backward, asserting the correct shape of gradients
* fix ggml_acc_or_set to return tensor of correct shape
* remove unused 'inplace' argument from ggml_compute_backward function
inplace operations to add gradients are no longer created by ggml_compute_backward
use allocator to automatically make inplace operations
* add missing argument 'int i0' to ggml_get_i32_nd & ggml_set_i32_nd header declarations
* fix error message in ggml_allocr_alloc to display actual max_avail
* fix check_gradient
ggml_build_backward_expand was previously replaced by ggml_build_backward, but the assignment of forward graph to backward graph missing
* use tensor->view_src instead of ggml_is_view and get_view_source
* move gradient checkpointing code into ggml, new API function:
// build gradient checkpointing backward graph gb for gf using provided checkpoints
// gb_tmp will contain original backward graph with rewritten backward process nodes,
// but without the second forward pass nodes.
GGML_API void ggml_build_backward_gradient_checkpointing(
struct ggml_context * ctx,
struct ggml_cgraph * gf,
struct ggml_cgraph * gb,
struct ggml_cgraph * gb_tmp,
struct ggml_tensor * * checkpoints,
int n_checkpoints);
* replace custom data getters and setters by ggml functions
* train-text-from-scratch can train (full finetune) gguf models
just pass the gguf model via `--checkpoint-in FN`.
after this, to continue training, pass the generated checkpoint instead of the original gguf model.
tested with smaller models, bigger models may exceed available memory.
use (LORA) finetune for those.
* remove trailing whitespace
* add option to save train-text-from-scratch output every N iterations
* update README.md
* fix warnings
* fix warnings
* remove finetune option to disable allocator
the allocator should always be used.
by making sure that it is always used it gets easier to implement automatic memory requirements computation
* add tensor checkpoints only when gradient checkpointing is enabled
* initialize opt ggml context if none was provided
* add ggml-alloc API function 'ggml_allocr_max_size' to get max size of alloc
GGML_API size_t ggml_allocr_max_size(struct ggml_allocr * alloc);
* finetune: automatically allocate all memory and changes to command line options
remove '--n_examples N' parameter, as it no longer makes sense to call optimization process multiple times in a loop.
add '--only_write_lora' command line option: will skip tokenization and training, to only write a llama.cpp comptabile LORA adapter.
remove memory buffer related command line options.
improve iteration console output.
* add finetune to Makefile
* update README.md
* print time per iteration and estimate remaining time
* increase measured alloc size by tensor_alignment
ggml_allocr_reset will reduce the given size by up to tensor_alignment-1
* fix README.md
* add some more allocator debug prints
* bug fix, probably solves the 'ggml_allocr_alloc: not enough space in the buffer' issue
* revert last commit
"bug fix, probably solves the 'ggml_allocr_alloc: not enough space in the buffer' issue"
"alloc was freeing an externally allocated tensor, because it calculated the end of allocator memory as alloc->data + alloc->max_size instead of alloc->data + alloc->size."
This is intentional to reduce the risk of freeing external tensors when measuring. Unless max_size is not properly calculated, I don't see why this is an issue.
* remove unnecessary "0x" before "%p" output
* move measurement memory segment to upper region of the address space
* update README.md
* fix printf format warnings
* add missing gguf_free in load_checkpoint_lora_file
* load default rms_norm and rope parameters from base model
* add gradient accumulation
specify number accumulation steps with '--grad-acc N'.
this will simulate a bigger batch size of grad_acc*batch.
* fix tracking of train_samples and train_tokens
* build : fix compile warnings
* ggml : fix L-BFGS linesearch loop
* improve finetune time measurement
fix printf warnings on system where int64_t is (long int).
change time datatypes to double because values get big with long training times.
exclude file saving from time measurement.
converge faster to actual time per iteration by removing very small first duration before first iteration was performed.
fix bug in output of total training time, the reported value was 1000 times to small.
* specify default lora rank with '--lora-r N'
'--lora-r N' will specify default rank for all tensors
'--rank-wq N', etc. will override this default rank for specific tensor types.
* fix gradient accumulation bug where the same batch was used for each microstep
* fix gradient accumulation bug where the same batch was used for each microstep
* support grouped-query-attention in ggml_flash_attn and ggml_flash_attn_back
k and v can now be repeated in q along ne[2]
in forward pass just use modulo to compute k and v indices, like ik2 = iq2 % nek2.
in backard pass this won't work as easy, because multiple threads will compete to accumulate to the same k->grad[:,ik1,ik2,ik3] and v->grad[:,iv1,iv2,iv3].
so we change the parallelization over q rows to be over k rows. this ensures non-overlapping (ik2,ik3) across threads.
in each thread we then iterate over the number of repetitions of k/v in q to compute iq2 as iq2 = ik2 + irep*nek2.
since ne2 is not the same for q,k and v we also change how the gradients are concatenated into the result tensor.
additionally the offsets of gradq, gradk and gradv in the result tensor are now memory aligned.
we also simplify the compute_backward part of flash_attn to use ggml_reshape instead of switching over the number of dimensions.
this needs a small change to ggml_reshape, removing the assertion of second argument to be contiguous.
since only the shape (ne) of the second reshape argument is of relevance, its memory layout (nb) is irrelevant -> it can very well be non-contiguous.
change test-grad0 to also test for repeated k/v in q.
this changes the rng and now results in small gradient differences in softmax. these solely come from using f16 exp table lookup in forward softmax: when temporarily changing softmax to use actual exp function, the reported gradient differences go away. gradient differences coming solely from f16 table lookup are acceptable.
added a note to explain this.
* add llama API functions to get grouped-query-attention n_head parameter 'n_head_kv'.
* fix finetune to support grouped-query-attention (using flash-attention)
note: ggml changes to ggml_out_prod are necessary to support grouped-query-attention without flash-attention.
* support broadcastable a in out_prod(a, b) and backward pass of broadcasting mul_mat(a, b)
* test broadcasting mul_mat backward pass
* decouple random number generator of each operation test
when changing one test the rng of others tests is not influenced anymore
* add comment briefly describing what ggml_repeat_back does
* simplify broadcasting mul_mat backward using ggml_repeat_back
* add cgraph evaluation order member and corresponding enum type
this controls in which order ggml_build_forward visits source nodes.
by default the nodes are visited left to right, i.e. src[0] first.
in some cases it is beneficial for ggml-alloc to visit in a different order.
two possible orders are supported: left-to-right (src[0] first) and right-to-left (src[0] last).
* measure max compute size for each cgraph eval order and use best order
this can bring huge memory savings:
e.g. codellama-34b with n_ctx=64, n_batch=1 goes from 92927.8mb down to 4627.6 MB
* remove unused command line options
* add sample start patterns and options to force new or by default resume last shuffling
* update shuffle rng state on reshuffle
* exclude known zero values from computations in flash_attn_f32 & flash_attn_back_f32
* remove probably unnecessary exception type flags from stringstream
* pass correct max number of tokens to llama_tokenize
* account for possible leading whitespace that will be added by tokenizer
e.g. '\t' will be tokenized by llama spm tokenizer to [29871, 12]
* use unrolled vec_mad in out_prod
y is vec_mad result vec.
x is vec_mad input vec.
v is vec_mad input scalar.
ggml_vec_mad_f32_unroll will internally loop over x and v with same y.
GGML_VEC_MAD_UNROLL is by default defined to 32.
This value is empirical optimized using performance test runs of out-prod in openllama-3b finetune with 256 context length and batch size 1. It gives 23% performance boost for out_prod.
Full measurements of out-prod runtime in ms:
unroll_xv unroll_yv
1 67014.643 87826.469
2 77117.552 89077.656
4 72091.311 109121.657
8 61077.543 88678.334
16 56914.67 79514.947
24 59024.595 84350.254
28 55952.446 83368.73
32 51476.658 85177.745
36 55973.792 84659.92
40 55139.616 93844.738
48 60736.392 93330.267
64 99856.878 116994.99
Second column is when unrollying yv instead of xv
* set lora_alpha to value of lora_r if it is not set via command line
otherwise only changing lora_r will change scaling of lora adapter used in prediction
* reshuffle original sample order instead of the previous shuffled order
otherwise resumed reshuffle will not result in same sample order
* block tiling for out-prod inspired by mul-mat
block sizes are empirically optimized
roughly doubles the flops of out-prod
* exclude some more known zero values from computations in flash_attn_f32 & flash_attn_back_f32
* add static keywords
* remove outcommented old code
* update train-text-from-scratch with tokenization, sample selection and shuffling from finetune
* remove lbfgs related train parameters
* move common train functions into common/train.[h|cpp]
* move train state into struct train_state
* move train data saving code into callback to unify code of opt_callback
train_params are still different in finetune and train-text-from-scratch, so it can't yet be moved to train.h|cpp
* move common train params into common/train
* move common opt_callback into common/train
* fix consume_common_train_arg
* save and load head_count_kv in lora checkpoints
* increase train_samples by used_samples instead of number of batches
on batch can contain more than one sample when option "fill_with_next_samples" is used
* fix usage of llama_tokenize
* remove static from process_escape since we need it exposed in header
* fix code formating of long function declarations
* fix condition in load_train_state_gguf
* use die("msg") instead of replace GGML_ASSERT(!"msg") or throw std::runtime_error("msg")
* fix saving and loading of training type
* remove terminating '\0' from tokenization
(llama_tokenize is now passed the string length instead of relying on terminating '\0')
* fix compile warnings
* fix compile warnings
* use new/delete for train_state instead of malloc/free
using malloc may result in seg faults when trying to assign string fields
* assert that sample_count > 0, avoiding division by zero
* fix frand to return value in interval [0,1)
* add train option "--sample-random-offsets"
Use samples beginning at random offsets.
The offset is only applied to the first sample in each batch context window.
Together with "--fill-with-next-samples" this may help for training endless text generation.
For example given a dataset containing samples "abcd", "ABCD", "0123".
With context size of 8 and options "--fill-with-next-samples", "--no-separate-with-eos", "--no-separate-with-bos",
the context windows of batches could only be filled with "abcdABCD", "ABCDabcd", "0123abcd", etc.
With "--sample-random-offsets" it can also be filled with "23abcdAB", "bcd0123A", etc.
* deduplicate code into function
* remove n_rot hparam, as it must always be hparam.n_embd_head()
* align code
* assert correct base model tensor shapes
* move some params from lora hparams into model hparams and load model params from gguf
this equalizes the model definition in finetune and text-from-scratch and removes the need for additional llama api functions to get model parameters
* remove now unnecessary llama API functions to get model params that where added by this PR
* train-text-from-scratch: automatically allocate model tensors, remove option '--mem-model N'
* train-text-from-scratch: automatically allocate opt context
* train-text-from-scratch: automatically allocate input tensors
* train-text-from-scratch: automatically allocate compute memory
* remove unused options and equalize train-text-from-scratch with finetune
* initialize opt->loss_after with zero
* add export-lora program
* remove trailing whitespace
* add export-lora build in Makefile
* remove unused struct tensor_info from export-lora
* add export-lora build dependency to llama
because it depends on common, which depends on llama
* update finetune README.md
* cancel optimization when specified number of epochs is completed
* improve handling of export-lora arguments
print errors and warnings when files could not be read or created
* Fix export-lora.cpp "not enough space in the context's memory pool" (#1)
* Fix export-lora.cpp "not enough space in the context's memory pool"
Without this patch, export-lora would sometimes error with "not enough space in the context's memory pool (needed 656784, available 656800)".
* increase required context size by 5*GGML_MEM_ALIGN instead of plain 16
---------
Co-authored-by: xaedes <xaedes@gmail.com>
* improve handling of not yet supported tensor types
---------
Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
Co-authored-by: meatbag-18a <145869052+meatbag-18a@users.noreply.github.com>
2023-09-28 18:40:11 +00:00
fprintf ( stream , " lora: \n " ) ;
for ( std : : tuple < std : : string , float > la : params . lora_adapter ) {
if ( std : : get < 1 > ( la ) ! = 1.0f ) {
continue ;
}
fprintf ( stream , " - %s \n " , std : : get < 0 > ( la ) . c_str ( ) ) ;
}
fprintf ( stream , " lora_scaled: \n " ) ;
for ( std : : tuple < std : : string , float > la : params . lora_adapter ) {
if ( std : : get < 1 > ( la ) = = 1.0f ) {
continue ;
}
fprintf ( stream , " - %s: %f \n " , std : : get < 0 > ( la ) . c_str ( ) , std : : get < 1 > ( la ) ) ;
}
2023-08-28 15:59:39 +00:00
fprintf ( stream , " lora_base: %s \n " , params . lora_base . c_str ( ) ) ;
fprintf ( stream , " main_gpu: %d # default: 0 \n " , params . main_gpu ) ;
2024-02-18 19:11:16 +00:00
fprintf ( stream , " min_keep: %d # default: 0 (disabled) \n " , sparams . min_keep ) ;
2023-10-11 19:35:46 +00:00
fprintf ( stream , " mirostat: %d # default: 0 (disabled) \n " , sparams . mirostat ) ;
fprintf ( stream , " mirostat_ent: %f # default: 5.0 \n " , sparams . mirostat_tau ) ;
fprintf ( stream , " mirostat_lr: %f # default: 0.1 \n " , sparams . mirostat_eta ) ;
2023-08-28 15:59:39 +00:00
fprintf ( stream , " mlock: %s # default: false \n " , params . use_mlock ? " true " : " false " ) ;
2024-04-29 23:52:50 +00:00
fprintf ( stream , " model: %s # default: %s \n " , params . model . c_str ( ) , DEFAULT_MODEL_PATH ) ;
2023-09-03 12:12:08 +00:00
fprintf ( stream , " model_draft: %s # default: \n " , params . model_draft . c_str ( ) ) ;
2023-08-28 15:59:39 +00:00
fprintf ( stream , " multiline_input: %s # default: false \n " , params . multiline_input ? " true " : " false " ) ;
2023-09-04 19:26:24 +00:00
fprintf ( stream , " n_gpu_layers: %d # default: -1 \n " , params . n_gpu_layers ) ;
2023-08-28 15:59:39 +00:00
fprintf ( stream , " n_predict: %d # default: -1 (unlimited) \n " , params . n_predict ) ;
2023-10-11 19:35:46 +00:00
fprintf ( stream , " n_probs: %d # only used by server binary, default: 0 \n " , sparams . n_probs ) ;
2023-08-28 15:59:39 +00:00
fprintf ( stream , " no_mmap: %s # default: false \n " , ! params . use_mmap ? " true " : " false " ) ;
2024-03-27 07:23:10 +00:00
fprintf ( stream , " penalize_nl: %s # default: false \n " , sparams . penalize_nl ? " true " : " false " ) ;
2023-08-28 15:59:39 +00:00
fprintf ( stream , " ppl_output_type: %d # default: 0 \n " , params . ppl_output_type ) ;
fprintf ( stream , " ppl_stride: %d # default: 0 \n " , params . ppl_stride ) ;
2023-10-20 18:07:23 +00:00
fprintf ( stream , " presence_penalty: %f # default: 0.0 \n " , sparams . penalty_present ) ;
2023-08-28 15:59:39 +00:00
dump_string_yaml_multiline ( stream , " prompt " , params . prompt . c_str ( ) ) ;
fprintf ( stream , " prompt_cache: %s \n " , params . path_prompt_cache . c_str ( ) ) ;
fprintf ( stream , " prompt_cache_all: %s # default: false \n " , params . prompt_cache_all ? " true " : " false " ) ;
fprintf ( stream , " prompt_cache_ro: %s # default: false \n " , params . prompt_cache_ro ? " true " : " false " ) ;
dump_vector_int_yaml ( stream , " prompt_tokens " , prompt_tokens ) ;
fprintf ( stream , " random_prompt: %s # default: false \n " , params . random_prompt ? " true " : " false " ) ;
2023-10-20 18:07:23 +00:00
fprintf ( stream , " repeat_penalty: %f # default: 1.1 \n " , sparams . penalty_repeat ) ;
2023-08-28 15:59:39 +00:00
fprintf ( stream , " reverse_prompt: \n " ) ;
for ( std : : string ap : params . antiprompt ) {
size_t pos = 0 ;
while ( ( pos = ap . find ( ' \n ' , pos ) ) ! = std : : string : : npos ) {
ap . replace ( pos , 1 , " \\ n " ) ;
pos + = 1 ;
}
fprintf ( stream , " - %s \n " , ap . c_str ( ) ) ;
}
fprintf ( stream , " rope_freq_base: %f # default: 10000.0 \n " , params . rope_freq_base ) ;
fprintf ( stream , " rope_freq_scale: %f # default: 1.0 \n " , params . rope_freq_scale ) ;
2024-02-18 16:20:12 +00:00
fprintf ( stream , " seed: %u # default: -1 (random seed) \n " , params . seed ) ;
2023-08-28 15:59:39 +00:00
fprintf ( stream , " simple_io: %s # default: false \n " , params . simple_io ? " true " : " false " ) ;
2023-09-28 16:04:36 +00:00
fprintf ( stream , " cont_batching: %s # default: false \n " , params . cont_batching ? " true " : " false " ) ;
ggml : add Flash Attention (#5021)
* ggml : add ggml_flash_attn_ext API
* ggml : fix GQA support in ggml_flash_attn_ext
* ggml : online attention (CPU)
* metal : initial implementation
* metal : f16 precision
* metal : reduce branches
* metal : specialize for head size
* wip : 8 rows per simd group
* wip : 4 rows per simd group
* wip : template for rows per warp
* metal : parallelize across KV size
* metal : parallel reduce across heads
* metal : efficient flash_attn_f16 implementation
* metal : avoid redundant loads of the attention
* metal : scale and mask in matrix form
* metal : fix comment
* llama : avoid ggml_cast, use F32 query
* metal : add parallel reduce version (disabled)
* metal : move output into local memory + optimize
- the result from each simdgroup now stays in the registers
- significantly reduced SRAM usage
- more efficient skipping of -INF blocks
- avoid simdgroup barrier in hot loop
- add comments
* metal : add tests, fix scaling, support C > 32
* metal : improve precision
* ggml : fix f16 mad
* metal : minor
* metal : support Q > 8
* tests : add ATTN tests
* metal : disable buffer allocation logs
* tests : more
* metal : faster inner loop for C == 32
* metal : fix array initialization
* tests : ifdef
* ggml : switch to padded F16 mask for ggml_soft_max, ggml_flash_attn_ext
* ggml : fix ggml_soft_max mask requirement
* cuda : fix soft_max to use correct mask size
* cuda : add flash_attn kernel (wip)
* metal : optimize softmax for C > 32
* metal : optimize softmax
* tests : minor fix
* cuda : avoid zeroing fragments
* tests : update dims
* cuda : fix __hisinf() result check
* cuda : avoid warp_reduce for smax
* cuda : use int instead of int64_t
Noticeably improves performance (thanks to Johannes)
* cuda : make loops use the same loop values
Thanks Johannes again for the tip
* cuda : unroll some of the loops
* cuda : avoid __hisinf branches
* cuda : use half2 in softmax
* cuda : switch to 1 warp for bs > 16
* cuda : speed-up reduce part of the kernel
* cuda : unroll Q*K^T loop
* cuda : fix -INF block check
* cuda : simplify softmax
* cuda : fix matrix names
* cuda : minor
* llama : adapt to F16 KQ_pos
* llama : adapt new models to F16 KQ_mask
* ggml : fix F16 store (ARM NEON)
* llama : fix type of KQ_mask and KQ_pos
* ggml : fix CPU soft_max
* tests : add hs=256
* cuda : fix build
* metal : improve perf via smaller int registers
* cuda : adapt soft_max to F16 mask and pos
* CUDA: faster FlashAttention, kernel for bs == 1
* 16 cols for Phi-2
* no vec for hs, no hs==256 ncols==32 for Volta
* adjust kernel selection logic
* 4 warps, 256 stride for all D
* no ncols == 64
* Multiple parallel blocks for batch size 1
* fix compile warnings
* fix excessive KQ_b loads
* fix cmake build
* fix KV cache padding, NaN from INFINITY (#6438)
* llama : flash_attn cparam + fix defrag
* server: support flash_attn param
* server: bench: enable flash_attn param
* CUDA: refactor host code, dyn. par. blocks
* fix flash_attn_vec_f16 race condition
* flush softmax exp below threshold to 0
* store temp KQ in registers
* Calculate KQ as FP32 if KQV has GGML_PREC_F32
* Add __hgt2_mask implementation for CUDA 11
* fix KQ FP32 precision fpr parallel_blocks > 1
* llama-bench : add -fa,--flash-attn arg
* metal : add BS=1 kernel for flash attention (#6508)
* metal : add BS=1 kernel for flash attention (wip)
* metal : support more than 1 warps
* metal : opts
* metal : opt
* metal : switch to parallel reduce
* metal : reduce registers
* metal : simplify
* metal : initial FA vec kernel
* metal : use F32 attention accumulators
* batched-bench : add fattn arg
* llama : simplify llama_build_kv_store
ggml-ci
* llama : adapt build_olmo to changes
* ggml : fix arm fp16 store on windows
* metal : clean-up
* metal : clean-up kernel code
* metal : minor
* tests : remove benchmarks
ggml-ci
* ggml : fix avx512 const correctness
ggml-ci
* ggml : fix soft_max with bias on CPU
ggml-ci
* common : print --flash-attn in help
* ggml : fix num dimensions in ggml_flash_attn_ext
* llama : force disable flash attention for incompatible models
* ggml : ggml_soft_max support F16/F32 mask/pos
ggml-ci
* cuda : uint -> uint32_t
* cuda : "constexpr dim3" -> "const dim3"
ggml-ci
* cuda : try to fix __hgt2_mask
ggml-ci
* ggml : add TODO's for F16/F32 mask/pos support in other backends
* llama : replace bool need_kq_pos with use_alibi
* llama : prep ALiBi support for BERT models
ggml-ci
* llama : fix n_batch requirements
ggml-ci
* cont
* server : add help for --flash-attn arg
* llama : disable FA for AMD
* tests : remove TMP_ATTN_BENCH
ggml-ci
* llama : support save/load state with FA enabled
ggml-ci
* ci : add CUDA save-load-state tests
ggml-ci
* llama : llama_kv_cache_clear zeroes data + fix save-load seq
ggml-ci
* llama : fix copy-paste errors, add TODO
* llama : disallow incompatible states
* llama : update llama_state_get_size after v_trans field
* metal : remove tmp log
* llama : add static reminder for llama_state_get_size
* metal : fix max nsg
ggml-ci
* ci : fix arg order
ggml-ci
---------
Co-authored-by: Johannes Gäßler <johannesg@5d6.de>
Co-authored-by: Pierrick HYMBERT <pierrick.hymbert@gmail.com>
2024-04-30 09:16:08 +00:00
fprintf ( stream , " flash_attn: %s # default: false \n " , params . flash_attn ? " true " : " false " ) ;
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fprintf ( stream , " temp: %f # default: 0.8 \n " , sparams . temp ) ;
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2024-01-31 15:30:17 +00:00
const std : : vector < float > tensor_split_vector ( params . tensor_split , params . tensor_split + llama_max_devices ( ) ) ;
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dump_vector_float_yaml ( stream , " tensor_split " , tensor_split_vector ) ;
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fprintf ( stream , " tfs: %f # default: 1.0 \n " , sparams . tfs_z ) ;
2024-02-18 16:20:12 +00:00
fprintf ( stream , " threads: %d # default: %u \n " , params . n_threads , std : : thread : : hardware_concurrency ( ) ) ;
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fprintf ( stream , " top_k: %d # default: 40 \n " , sparams . top_k ) ;
fprintf ( stream , " top_p: %f # default: 0.95 \n " , sparams . top_p ) ;
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fprintf ( stream , " min_p: %f # default: 0.0 \n " , sparams . min_p ) ;
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fprintf ( stream , " typical_p: %f # default: 1.0 \n " , sparams . typical_p ) ;
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fprintf ( stream , " verbose_prompt: %s # default: false \n " , params . verbose_prompt ? " true " : " false " ) ;
2024-01-13 16:09:08 +00:00
fprintf ( stream , " display_prompt: %s # default: true \n " , params . display_prompt ? " true " : " false " ) ;
2023-08-28 15:59:39 +00:00
}
2023-11-23 17:07:56 +00:00
//
// KV cache utils
//
void dump_kv_cache_view ( const llama_kv_cache_view & view , int row_size ) {
static const char slot_chars [ ] = " .123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz+ " ;
printf ( " === Dumping KV cache. total cells %d, max sequences per cell %d, populated cells %d, total tokens in cache %d, largest empty slot=%d @ %d " ,
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view . n_cells , view . n_seq_max , view . used_cells , view . token_count , view . max_contiguous , view . max_contiguous_idx ) ;
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llama_kv_cache_view_cell * c_curr = view . cells ;
llama_seq_id * cs_curr = view . cells_sequences ;
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for ( int i = 0 ; i < view . n_cells ; i + + , c_curr + + , cs_curr + = view . n_seq_max ) {
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if ( i % row_size = = 0 ) {
printf ( " \n %5d: " , i ) ;
}
int seq_count = 0 ;
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for ( int j = 0 ; j < view . n_seq_max ; j + + ) {
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if ( cs_curr [ j ] > = 0 ) { seq_count + + ; }
}
putchar ( slot_chars [ std : : min ( sizeof ( slot_chars ) - 2 , size_t ( seq_count ) ) ] ) ;
}
printf ( " \n === Done dumping \n " ) ;
}
void dump_kv_cache_view_seqs ( const llama_kv_cache_view & view , int row_size ) {
static const char slot_chars [ ] = " 0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz " ;
printf ( " === Dumping KV cache. total cells %d, max sequences per cell %d, populated cells %d, total tokens in cache %d, largest empty slot=%d @ %d \n " ,
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view . n_cells , view . n_seq_max , view . used_cells , view . token_count , view . max_contiguous , view . max_contiguous_idx ) ;
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std : : unordered_map < llama_seq_id , size_t > seqs ;
llama_kv_cache_view_cell * c_curr = view . cells ;
llama_seq_id * cs_curr = view . cells_sequences ;
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for ( int i = 0 ; i < view . n_cells ; i + + , c_curr + + , cs_curr + = view . n_seq_max ) {
for ( int j = 0 ; j < view . n_seq_max ; j + + ) {
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if ( cs_curr [ j ] < 0 ) { continue ; }
if ( seqs . find ( cs_curr [ j ] ) = = seqs . end ( ) ) {
if ( seqs . size ( ) + 1 > = sizeof ( slot_chars ) ) { break ; }
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const size_t sz = seqs . size ( ) ;
seqs [ cs_curr [ j ] ] = sz ;
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}
}
if ( seqs . size ( ) + 1 > = sizeof ( slot_chars ) ) { break ; }
}
printf ( " === Sequence legend: " ) ;
for ( const auto & it : seqs ) {
printf ( " %zu=%d, " , it . second , it . first ) ;
}
printf ( " '+'=other sequence ids " ) ;
c_curr = view . cells ;
cs_curr = view . cells_sequences ;
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for ( int i = 0 ; i < view . n_cells ; i + + , c_curr + + , cs_curr + = view . n_seq_max ) {
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if ( i % row_size = = 0 ) {
printf ( " \n %5d: " , i ) ;
}
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for ( int j = 0 ; j < view . n_seq_max ; j + + ) {
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if ( cs_curr [ j ] > = 0 ) {
const auto & it = seqs . find ( cs_curr [ j ] ) ;
putchar ( it ! = seqs . end ( ) ? int ( slot_chars [ it - > second ] ) : ' + ' ) ;
} else {
putchar ( ' . ' ) ;
}
}
putchar ( ' ' ) ;
}
printf ( " \n === Done dumping \n " ) ;
}
2024-03-09 12:27:58 +00:00
void llama_embd_normalize ( const float * inp , float * out , int n ) {
double sum = 0.0 ;
for ( int i = 0 ; i < n ; i + + ) {
sum + = inp [ i ] * inp [ i ] ;
}
sum = sqrt ( sum ) ;
const float norm = sum > 0.0 ? 1.0f / sum : 0.0f ;
for ( int i = 0 ; i < n ; i + + ) {
out [ i ] = inp [ i ] * norm ;
}
}
2024-03-14 08:12:29 +00:00
float llama_embd_similarity_cos ( const float * embd1 , const float * embd2 , int n ) {
double sum = 0.0 ;
double sum1 = 0.0 ;
double sum2 = 0.0 ;
for ( int i = 0 ; i < n ; i + + ) {
sum + = embd1 [ i ] * embd2 [ i ] ;
sum1 + = embd1 [ i ] * embd1 [ i ] ;
sum2 + = embd2 [ i ] * embd2 [ i ] ;
}
return sum / ( sqrt ( sum1 ) * sqrt ( sum2 ) ) ;
}
2024-03-15 20:43:02 +00:00
//
// Control vector utils
//
static llama_control_vector_data llama_control_vector_load_one ( const llama_control_vector_load_info & load_info ) {
int32_t n_tensors ;
size_t n_bytes = 0 ;
uint32_t max_direction_layer = 0 ;
llama_control_vector_data result = { - 1 , { } } ;
// calculate size of ctx needed for tensors, ensure tensors are f32, and find max layer
{
struct ggml_init_params meta_params = {
/* .mem_size = */ ggml_tensor_overhead ( ) * 128 + ggml_graph_overhead ( ) ,
/* .mem_buffer = */ nullptr ,
/* .no_alloc = */ true ,
} ;
ggml_context * meta_ctx = ggml_init ( meta_params ) ;
struct gguf_init_params meta_gguf_params = {
/* .no_alloc = */ true ,
/* .ctx = */ & meta_ctx ,
} ;
struct gguf_context * meta_ctx_gguf = gguf_init_from_file ( load_info . fname . c_str ( ) , meta_gguf_params ) ;
if ( ! meta_ctx_gguf ) {
fprintf ( stderr , " %s: failed to load control vector from %s \n " , __func__ , load_info . fname . c_str ( ) ) ;
ggml_free ( meta_ctx ) ;
return result ;
}
n_tensors = gguf_get_n_tensors ( meta_ctx_gguf ) ;
for ( int i = 0 ; i < n_tensors ; i + + ) {
std : : string name = gguf_get_tensor_name ( meta_ctx_gguf , i ) ;
// split on '.'
size_t dotpos = name . find ( ' . ' ) ;
if ( dotpos ! = std : : string : : npos & & name . substr ( 0 , dotpos ) = = " direction " ) {
try {
uint32_t layer = std : : stoi ( name . substr ( dotpos + 1 ) ) ;
if ( layer = = 0 ) {
fprintf ( stderr , " %s: direction tensor invalid in %s \n " , __func__ , load_info . fname . c_str ( ) ) ;
ggml_free ( meta_ctx ) ;
gguf_free ( meta_ctx_gguf ) ;
return result ;
}
if ( layer > max_direction_layer ) {
max_direction_layer = layer ;
}
} catch ( . . . ) {
fprintf ( stderr , " %s: direction tensor invalid in %s \n " , __func__ , load_info . fname . c_str ( ) ) ;
ggml_free ( meta_ctx ) ;
gguf_free ( meta_ctx_gguf ) ;
return result ;
}
}
struct ggml_tensor * tensor_meta = ggml_get_tensor ( meta_ctx , name . c_str ( ) ) ;
if ( tensor_meta - > type ! = GGML_TYPE_F32 | | ggml_n_dims ( tensor_meta ) ! = 1 ) {
fprintf ( stderr , " %s: direction tensor invalid in %s \n " , __func__ , load_info . fname . c_str ( ) ) ;
ggml_free ( meta_ctx ) ;
gguf_free ( meta_ctx_gguf ) ;
return result ;
}
if ( result . n_embd = = - 1 ) {
result . n_embd = ggml_nelements ( tensor_meta ) ;
} else if ( ggml_nelements ( tensor_meta ) ! = result . n_embd ) {
fprintf ( stderr , " %s: direction tensor sizes mismatched in %s \n " , __func__ , load_info . fname . c_str ( ) ) ;
ggml_free ( meta_ctx ) ;
gguf_free ( meta_ctx_gguf ) ;
return result ;
}
n_bytes + = ggml_nbytes ( tensor_meta ) ;
}
ggml_free ( meta_ctx ) ;
gguf_free ( meta_ctx_gguf ) ;
}
if ( n_tensors = = 0 ) {
fprintf ( stderr , " %s: no direction tensors found in %s \n " , __func__ , load_info . fname . c_str ( ) ) ;
return result ;
}
// load and scale tensors into final control vector context
struct ggml_init_params ggml_params = {
/* .mem_size = */ ggml_tensor_overhead ( ) * n_tensors + n_bytes ,
/* .mem_buffer = */ nullptr ,
/* .no_alloc = */ false ,
} ;
struct ggml_context * ctx = ggml_init ( ggml_params ) ;
struct gguf_init_params params = {
/*.no_alloc = */ false ,
/*.ctx = */ & ctx ,
} ;
struct gguf_context * ctx_gguf = gguf_init_from_file ( load_info . fname . c_str ( ) , params ) ;
if ( ! ctx_gguf ) {
fprintf ( stderr , " %s: failed to load control vector from %s \n " , __func__ , load_info . fname . c_str ( ) ) ;
ggml_free ( ctx ) ;
return result ;
}
// do not store data for layer 0 (it's not used)
result . data . resize ( result . n_embd * max_direction_layer ) ;
for ( uint32_t il = 1 ; il < = max_direction_layer ; il + + ) {
const std : : string name = " direction. " + std : : to_string ( il ) ;
const ggml_tensor * tensor = ggml_get_tensor ( ctx , name . c_str ( ) ) ;
float * dst = result . data . data ( ) + result . n_embd * ( il - 1 ) ;
if ( tensor ) {
const float * src = ( const float * ) tensor - > data ;
for ( int j = 0 ; j < result . n_embd ; j + + ) {
dst [ j ] = src [ j ] * load_info . strength ;
}
} else {
for ( int j = 0 ; j < result . n_embd ; j + + ) {
dst [ j ] = 0.0f ;
}
}
}
return result ;
}
llama_control_vector_data llama_control_vector_load ( const std : : vector < llama_control_vector_load_info > & load_infos ) {
llama_control_vector_data result = { - 1 , { } } ;
for ( const auto & info : load_infos ) {
auto cur = llama_control_vector_load_one ( info ) ;
if ( cur . n_embd = = - 1 ) {
return result ;
}
if ( result . n_embd ! = - 1 & & ( result . n_embd ! = cur . n_embd | | result . data . size ( ) ! = cur . data . size ( ) ) ) {
fprintf ( stderr , " %s: control vector in %s does not match previous vector dimensions \n " , __func__ , info . fname . c_str ( ) ) ;
return result ;
}
if ( result . n_embd = = - 1 ) {
result = std : : move ( cur ) ;
} else {
for ( size_t i = 0 ; i < cur . data . size ( ) ; i + + ) {
result . data [ i ] + = cur . data [ i ] ;
}
}
}
if ( result . n_embd = = - 1 ) {
fprintf ( stderr , " %s: no vectors passed \n " , __func__ ) ;
}
return result ;
}
