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CANN: Fix SOC_TYPE compile bug (#10519)
* CANN: Fix the bug build fail on Ascend310P under two cases: 1) Manual specify SOC_TYPE 2) Under some unusual compile environment * Update the cann backend News content: Support F16 and F32 data type model for Ascend 310P NPU. * fix CANN compile fail bug: the assert in ascend kernel function doesn't supportted on some CANN version
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@ -23,6 +23,8 @@ The llama.cpp CANN backend is designed to support Ascend NPU. It utilize the abi
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## News
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- 2024.11
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- Support F16 and F32 data type model for Ascend 310P NPU.
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- 2024.8
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- Support `Q4_0` and `Q8_0` data type for Ascend NPU.
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- 2024.7
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@ -43,6 +45,7 @@ The llama.cpp CANN backend is designed to support Ascend NPU. It utilize the abi
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| Ascend NPU | Status |
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|:-----------------------------:|:-------:|
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| Atlas 300T A2 | Support |
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| Atlas 300I Duo | Support |
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*Notes:*
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@ -22,13 +22,14 @@ if(NOT SOC_TYPE)
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detect_ascend_soc_type(SOC_VERSION)
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set(SOC_TYPE "${SOC_VERSION}")
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message(STATUS "CANN: SOC_VERSION auto-detected is:${SOC_VERSION}")
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else()
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string(TOLOWER ${SOC_TYPE} SOC_VERSION)
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endif()
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# Construct Soc specify compile option: ASCEND_#Soc_Major_SN. Such as ASCEND_910B, ASCEND310P.
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string(TOLOWER ${SOC_TYPE} SOC_VERSION) # SOC_VERSION need lower
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# Construct Soc specify compile option: ASCEND_#Soc_Major_SN. Such as ASCEND_910B, ASCEND_310P.
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string(REGEX MATCH "[0-9]+[a-zA-Z]" SOC_TYPE_MAJOR_SN "${SOC_VERSION}")
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set(SOC_TYPE_COMPILE_OPTION "ASCEND_${SOC_TYPE_MAJOR_SN}")
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string(TOUPPER ${SOC_TYPE_COMPILE_OPTION} SOC_TYPE_COMPILE_OPTION)
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if (CANN_INSTALL_DIR)
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# Only Support Linux.
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@ -25,6 +25,6 @@ ascendc_library(ascendc_kernels STATIC
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${SRC_FILES}
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)
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message(STATUS "CANN: compile ascend kernels witch SOC_VERSION:${SOC_VERSION}.")
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message(STATUS "CANN: compile ascend kernels witch SOC_TYPE:${SOC_TYPE}, SOC_VERSION:${SOC_VERSION}, compile macro:-D${SOC_TYPE_COMPILE_OPTION}.")
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ascendc_compile_definitions(ascendc_kernels PRIVATE "-D${SOC_TYPE_COMPILE_OPTION}")
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# ascendc_compile_definitions(ascendc_kernels PRIVATE -DASCENDC_DUMP)
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@ -20,7 +20,6 @@ class DupByRows {
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// Input has four dims.
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int64_t op_block_num = GetBlockNum();
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int64_t op_block_idx = GetBlockIdx();
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assert(op_block_idx < SUPPORTED_MAX_DIM && op_block_idx >= 0, "Invalid block index:%d, max is:%d\n", op_block_idx, SUPPORTED_MAX_DIM);
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// param
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num_rows = input_ne_ub[1] * input_ne_ub[2] * input_ne_ub[3];
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@ -2,6 +2,15 @@
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// optimize me. Use template to avoid copy code.
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using namespace AscendC;
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#ifdef ASCEND_310P // 310P not support 4bit get row
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extern "C" __global__ __aicore__ void ascendc_get_row_q4_0(
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GM_ADDR input_gm, GM_ADDR indices_gm, GM_ADDR output_gm,
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GM_ADDR input_ne_gm, GM_ADDR indices_ne_gm, GM_ADDR indices_nb_gm,
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GM_ADDR output_ne_gm, GM_ADDR output_nb_gm) {
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// let following test cases can continue run, here just print error information. Of Cource the test case that call this operator is failed.
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printf("Ascend310P not support 4bit get row.\n");
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}
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#else
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#define BUFFER_NUM 2
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@ -110,12 +119,9 @@ class GET_ROW_Q4_0 {
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LocalTensor<float> output_local = output_queue.AllocTensor<float>();
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// TODO: cast more data to speed up.
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#ifdef ASCEND_310P
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// TODO: 310P support quantification
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#else
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Cast(cast_local, input_local, RoundMode::CAST_NONE, QK4_0);
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Cast(output_local, cast_local, RoundMode::CAST_NONE, QK4_0);
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#endif
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// Only mul need compile by group.
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half scale = scale_gm.GetValue(scale_offset);
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@ -194,3 +200,5 @@ extern "C" __global__ __aicore__ void ascendc_get_row_q4_0(
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indices_nb_ub, output_ne_ub, output_nb_ub);
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op.calculate();
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}
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#endif // #ifdef ASCEND_310P
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@ -1,6 +1,14 @@
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#include "kernel_operator.h"
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using namespace AscendC;
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#ifdef ASCEND_310P
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extern "C" __global__ __aicore__ void ascendc_quantize_f16_q8_0(
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GM_ADDR input_gm, GM_ADDR output_gm, GM_ADDR input_ne_gm,
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GM_ADDR input_nb_gm, GM_ADDR output_ne_gm) {
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// let following test cases can continue run, here just print error information. Of Cource the test case that call this operator is failed.
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printf("Ascend310P not support f16->8bit quantization.\n");
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}
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#else
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#define BUFFER_NUM 2
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#define QK8_0 32
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@ -206,3 +214,5 @@ extern "C" __global__ __aicore__ void ascendc_quantize_f16_q8_0(
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op.init(input_gm, output_gm, input_ne_ub, input_nb_ub, output_ne_ub);
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op.calculate();
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}
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#endif // #ifdef ASCEND_310P
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@ -1,6 +1,14 @@
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#include "kernel_operator.h"
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using namespace AscendC;
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#ifdef ASCEND_310P // 310P not support f32->8bit quantization
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extern "C" __global__ __aicore__ void ascendc_quantize_f32_q8_0(
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GM_ADDR input_gm, GM_ADDR output_gm, GM_ADDR input_ne_gm,
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GM_ADDR input_nb_gm, GM_ADDR output_ne_gm) {
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// let following test cases can continue run, here just print error information. Of Cource the test case that call this operator is failed.
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printf("Ascend310P not support f32->8bit quantization.\n");
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}
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#else
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#define BUFFER_NUM 2
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#define QK8_0 32
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@ -204,3 +212,5 @@ extern "C" __global__ __aicore__ void ascendc_quantize_f32_q8_0(
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op.init(input_gm, output_gm, input_ne_ub, input_nb_ub, output_ne_ub);
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op.calculate();
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}
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#endif // #ifdef ASCEND_310P
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@ -1,6 +1,21 @@
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#include "kernel_operator.h"
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using namespace AscendC;
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#ifdef ASCEND_310P // 310P not support float->4bit quantization
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extern "C" __global__ __aicore__ void ascendc_quantize_f32_to_q4_0(
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GM_ADDR input_gm, GM_ADDR output_gm, GM_ADDR input_ne_gm,
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GM_ADDR input_nb_gm, GM_ADDR output_ne_gm) {
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// let following test cases can continue run, here just print error information. Of Cource the test case that call this operator is failed.
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printf("Ascend310P not support f32->4bit quantization.\n");
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}
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extern "C" __global__ __aicore__ void ascendc_quantize_f16_to_q4_0(
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GM_ADDR input_gm, GM_ADDR output_gm, GM_ADDR input_ne_gm,
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GM_ADDR input_nb_gm, GM_ADDR output_ne_gm) {
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// let following test cases can continue run, here just print error information. Of Cource the test case that call this operator is failed.
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printf("Ascend310P not support f16->4bit quantization.\n");
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}
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#else
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#define BUFFER_NUM 2
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#define Group_Size 32
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@ -276,3 +291,5 @@ extern "C" __global__ __aicore__ void ascendc_quantize_f32_to_q4_0(
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op.init(input_gm, output_gm, input_ne_ub, input_nb_ub, output_ne_ub);
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op.calculate();
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}
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#endif // #ifdef ASCEND_310P
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