vulkan : do not use tensor->extra (#9407)

* vulkan : do not use tensor->extra

This patch allows using the Vulkan backend with the RPC backend as
tensor->extra is no longer used.

Ref: #8536

* Adapt GGML_VULKAN_CHECK_RESULTS to extra removal (#2)

---------

Co-authored-by: 0cc4m <picard12@live.de>
This commit is contained in:
Radoslav Gerganov 2024-10-02 13:49:16 +03:00 committed by GitHub
parent 76b37d1541
commit 00b7317e63
No known key found for this signature in database
GPG Key ID: B5690EEEBB952194

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@ -433,16 +433,6 @@ struct vk_context_struct {
typedef std::shared_ptr<vk_context_struct> vk_context; typedef std::shared_ptr<vk_context_struct> vk_context;
typedef std::weak_ptr<vk_context_struct> vk_context_ref; typedef std::weak_ptr<vk_context_struct> vk_context_ref;
struct ggml_tensor_extra_gpu {
vk_buffer_ref buffer_gpu;
uint64_t offset;
void reset() {
buffer_gpu.reset();
offset = 0;
}
};
struct ggml_vk_garbage_collector { struct ggml_vk_garbage_collector {
std::vector<vk_semaphore> tl_semaphores; std::vector<vk_semaphore> tl_semaphores;
std::vector<vk_semaphore> semaphores; std::vector<vk_semaphore> semaphores;
@ -553,6 +543,31 @@ struct ggml_backend_vk_context {
std::vector<vk_context_ref> tensor_ctxs; std::vector<vk_context_ref> tensor_ctxs;
}; };
static void * const vk_ptr_base = (void *)(uintptr_t) 0x1000; // NOLINT
static uint64_t vk_tensor_offset(const ggml_tensor * tensor) {
if (tensor->view_src) {
return (uint8_t *) tensor->view_src->data - (uint8_t *) vk_ptr_base;
}
return (uint8_t *) tensor->data - (uint8_t *) vk_ptr_base;
}
struct ggml_backend_vk_buffer_context {
vk_device_ref device;
vk_buffer dev_buffer;
std::string name;
ggml_backend_vk_buffer_context(vk_device_ref device, vk_buffer&& dev_buffer, std::string& name) :
device(device),
dev_buffer(dev_buffer),
name(name) {
}
~ggml_backend_vk_buffer_context() {
ggml_vk_destroy_buffer(dev_buffer);
}
};
#ifdef GGML_VULKAN_MEMORY_DEBUG #ifdef GGML_VULKAN_MEMORY_DEBUG
void vk_memory_logger::log_allocation(vk_buffer_ref buf_ref, size_t size) { void vk_memory_logger::log_allocation(vk_buffer_ref buf_ref, size_t size) {
std::lock_guard<std::mutex> guard(log_mutex); std::lock_guard<std::mutex> guard(log_mutex);
@ -3076,9 +3091,9 @@ static void ggml_vk_mul_mat_q_f16(ggml_backend_vk_context * ctx, vk_context& sub
const uint64_t r2 = ne12 / ne02; const uint64_t r2 = ne12 / ne02;
const uint64_t r3 = ne13 / ne03; const uint64_t r3 = ne13 / ne03;
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) dst->extra; ggml_backend_vk_buffer_context * dst_buf_ctx = (ggml_backend_vk_buffer_context *)dst->buffer->context;
ggml_tensor_extra_gpu * extra_src0 = (ggml_tensor_extra_gpu *) src0->extra; ggml_backend_vk_buffer_context * src0_buf_ctx = (ggml_backend_vk_buffer_context *)src0->buffer->context;
ggml_tensor_extra_gpu * extra_src1 = (ggml_tensor_extra_gpu *) src1->extra; ggml_backend_vk_buffer_context * src1_buf_ctx = (ggml_backend_vk_buffer_context *)src1->buffer->context;
vk_buffer d_Qx; vk_buffer d_Qx;
size_t qx_buf_offset = 0; size_t qx_buf_offset = 0;
@ -3180,8 +3195,8 @@ static void ggml_vk_mul_mat_q_f16(ggml_backend_vk_context * ctx, vk_context& sub
return; return;
} }
vk_buffer d_D = extra->buffer_gpu.lock(); vk_buffer d_D = dst_buf_ctx->dev_buffer;
const uint64_t d_buf_offset = extra->offset + dst->view_offs; const uint64_t d_buf_offset = vk_tensor_offset(dst) + dst->view_offs;
GGML_ASSERT(d_D != nullptr); GGML_ASSERT(d_D != nullptr);
GGML_ASSERT(d_D->size >= d_buf_offset + d_sz * ne02 * ne03); GGML_ASSERT(d_D->size >= d_buf_offset + d_sz * ne02 * ne03);
vk_buffer d_X; vk_buffer d_X;
@ -3189,13 +3204,13 @@ static void ggml_vk_mul_mat_q_f16(ggml_backend_vk_context * ctx, vk_context& sub
vk_buffer d_Y; vk_buffer d_Y;
uint64_t y_buf_offset = 0; uint64_t y_buf_offset = 0;
if (!src0_uma) { if (!src0_uma) {
d_Qx = extra_src0->buffer_gpu.lock(); d_Qx = src0_buf_ctx->dev_buffer;
qx_buf_offset = extra_src0->offset + src0->view_offs; qx_buf_offset = vk_tensor_offset(src0) + src0->view_offs;
GGML_ASSERT(d_Qx != nullptr); GGML_ASSERT(d_Qx != nullptr);
} }
if (!src1_uma) { if (!src1_uma) {
d_Qy = extra_src1->buffer_gpu.lock(); d_Qy = src1_buf_ctx->dev_buffer;
qy_buf_offset = extra_src1->offset + src1->view_offs; qy_buf_offset = vk_tensor_offset(src1) + src1->view_offs;
GGML_ASSERT(d_Qy != nullptr); GGML_ASSERT(d_Qy != nullptr);
} }
if (qx_needs_dequant) { if (qx_needs_dequant) {
@ -3276,9 +3291,9 @@ static void ggml_vk_mul_mat_vec_q_f16(ggml_backend_vk_context * ctx, vk_context&
const uint64_t r2 = ne12 / ne02; const uint64_t r2 = ne12 / ne02;
const uint64_t r3 = ne13 / ne03; const uint64_t r3 = ne13 / ne03;
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) dst->extra; ggml_backend_vk_buffer_context * dst_buf_ctx = (ggml_backend_vk_buffer_context *)dst->buffer->context;
ggml_tensor_extra_gpu * extra_src0 = (ggml_tensor_extra_gpu *) src0->extra; ggml_backend_vk_buffer_context * src0_buf_ctx = (ggml_backend_vk_buffer_context *)src0->buffer->context;
ggml_tensor_extra_gpu * extra_src1 = (ggml_tensor_extra_gpu *) src1->extra; ggml_backend_vk_buffer_context * src1_buf_ctx = (ggml_backend_vk_buffer_context *)src1->buffer->context;
vk_buffer d_Qx; vk_buffer d_Qx;
size_t qx_buf_offset = 0; size_t qx_buf_offset = 0;
@ -3357,21 +3372,21 @@ static void ggml_vk_mul_mat_vec_q_f16(ggml_backend_vk_context * ctx, vk_context&
return; return;
} }
vk_buffer d_D = extra->buffer_gpu.lock(); vk_buffer d_D = dst_buf_ctx->dev_buffer;
const uint64_t d_buf_offset = extra->offset + dst->view_offs; const uint64_t d_buf_offset = vk_tensor_offset(dst) + dst->view_offs;
GGML_ASSERT(d_D != nullptr); GGML_ASSERT(d_D != nullptr);
vk_buffer d_X; vk_buffer d_X;
uint64_t x_buf_offset = 0; uint64_t x_buf_offset = 0;
vk_buffer d_Y; vk_buffer d_Y;
uint64_t y_buf_offset = 0; uint64_t y_buf_offset = 0;
if(!src0_uma) { if(!src0_uma) {
d_Qx = extra_src0->buffer_gpu.lock(); d_Qx = src0_buf_ctx->dev_buffer;
qx_buf_offset = extra_src0->offset + src0->view_offs; qx_buf_offset = vk_tensor_offset(src0) + src0->view_offs;
GGML_ASSERT(d_Qx != nullptr); GGML_ASSERT(d_Qx != nullptr);
} }
if(!src1_uma) { if(!src1_uma) {
d_Qy = extra_src1->buffer_gpu.lock(); d_Qy = src1_buf_ctx->dev_buffer;
qy_buf_offset = extra_src1->offset + src1->view_offs; qy_buf_offset = vk_tensor_offset(src1) + src1->view_offs;
GGML_ASSERT(d_Qy != nullptr); GGML_ASSERT(d_Qy != nullptr);
} }
if (qx_needs_dequant) { if (qx_needs_dequant) {
@ -3454,9 +3469,9 @@ static void ggml_vk_mul_mat_vec_p021_f16_f32(ggml_backend_vk_context * ctx, vk_c
GGML_ASSERT(ne11 == 1); GGML_ASSERT(ne11 == 1);
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) dst->extra; ggml_backend_vk_buffer_context * dst_buf_ctx = (ggml_backend_vk_buffer_context *)dst->buffer->context;
ggml_tensor_extra_gpu * extra_src0 = (ggml_tensor_extra_gpu *) src0->extra; ggml_backend_vk_buffer_context * src0_buf_ctx = (ggml_backend_vk_buffer_context *)src0->buffer->context;
ggml_tensor_extra_gpu * extra_src1 = (ggml_tensor_extra_gpu *) src1->extra; ggml_backend_vk_buffer_context * src1_buf_ctx = (ggml_backend_vk_buffer_context *)src1->buffer->context;
vk_buffer d_Qy; vk_buffer d_Qy;
size_t qy_buf_offset = 0; size_t qy_buf_offset = 0;
@ -3482,15 +3497,15 @@ static void ggml_vk_mul_mat_vec_p021_f16_f32(ggml_backend_vk_context * ctx, vk_c
return; return;
} }
vk_buffer d_D = extra->buffer_gpu.lock(); vk_buffer d_D = dst_buf_ctx->dev_buffer;
const uint64_t d_buf_offset = extra->offset + dst->view_offs; const uint64_t d_buf_offset = vk_tensor_offset(dst) + dst->view_offs;
GGML_ASSERT(d_D != nullptr); GGML_ASSERT(d_D != nullptr);
vk_buffer d_Qx = extra_src0->buffer_gpu.lock(); vk_buffer d_Qx = src0_buf_ctx->dev_buffer;
const uint64_t qx_buf_offset = extra_src0->offset + src0->view_offs; const uint64_t qx_buf_offset = vk_tensor_offset(src0) + src0->view_offs;
GGML_ASSERT(d_Qx != nullptr); GGML_ASSERT(d_Qx != nullptr);
if (!src1_uma) { if (!src1_uma) {
d_Qy = extra_src1->buffer_gpu.lock(); d_Qy = src1_buf_ctx->dev_buffer;
qy_buf_offset = extra_src1->offset + src1->view_offs; qy_buf_offset = vk_tensor_offset(src1) + src1->view_offs;
GGML_ASSERT(d_Qx != nullptr); GGML_ASSERT(d_Qx != nullptr);
} }
@ -3532,9 +3547,9 @@ static void ggml_vk_mul_mat_vec_nc_f16_f32(ggml_backend_vk_context * ctx, vk_con
GGML_ASSERT(ne11 == 1); GGML_ASSERT(ne11 == 1);
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) dst->extra; ggml_backend_vk_buffer_context * dst_buf_ctx = (ggml_backend_vk_buffer_context *)dst->buffer->context;
ggml_tensor_extra_gpu * extra_src0 = (ggml_tensor_extra_gpu *) src0->extra; ggml_backend_vk_buffer_context * src0_buf_ctx = (ggml_backend_vk_buffer_context *)src0->buffer->context;
ggml_tensor_extra_gpu * extra_src1 = (ggml_tensor_extra_gpu *) src1->extra; ggml_backend_vk_buffer_context * src1_buf_ctx = (ggml_backend_vk_buffer_context *)src1->buffer->context;
vk_buffer d_Qy = nullptr; vk_buffer d_Qy = nullptr;
size_t qy_buf_offset = 0; size_t qy_buf_offset = 0;
@ -3561,15 +3576,15 @@ static void ggml_vk_mul_mat_vec_nc_f16_f32(ggml_backend_vk_context * ctx, vk_con
return; return;
} }
vk_buffer d_D = extra->buffer_gpu.lock(); vk_buffer d_D = dst_buf_ctx->dev_buffer;
const uint64_t d_buf_offset = extra->offset + dst->view_offs; const uint64_t d_buf_offset = vk_tensor_offset(dst) + dst->view_offs;
GGML_ASSERT(d_D != nullptr); GGML_ASSERT(d_D != nullptr);
vk_buffer d_Qx = extra_src0->buffer_gpu.lock(); vk_buffer d_Qx = src0_buf_ctx->dev_buffer;
const uint64_t qx_buf_offset = extra_src0->offset + src0->view_offs; const uint64_t qx_buf_offset = vk_tensor_offset(src0) + src0->view_offs;
GGML_ASSERT(d_Qx != nullptr); GGML_ASSERT(d_Qx != nullptr);
if (!src1_uma) { if (!src1_uma) {
d_Qy = extra_src1->buffer_gpu.lock(); d_Qy = src1_buf_ctx->dev_buffer;
qy_buf_offset = extra_src1->offset + src1->view_offs; qy_buf_offset = vk_tensor_offset(src1) + src1->view_offs;
GGML_ASSERT(d_Qx != nullptr); GGML_ASSERT(d_Qx != nullptr);
} }
@ -3631,10 +3646,10 @@ static void ggml_vk_mul_mat_id_q_f16(ggml_backend_vk_context * ctx, vk_context&
const uint64_t n_as = ne02; const uint64_t n_as = ne02;
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) dst->extra; ggml_backend_vk_buffer_context * dst_buf_ctx = (ggml_backend_vk_buffer_context *)dst->buffer->context;
ggml_tensor_extra_gpu * extra_src0 = (ggml_tensor_extra_gpu *) src0->extra; ggml_backend_vk_buffer_context * src0_buf_ctx = (ggml_backend_vk_buffer_context *)src0->buffer->context;
ggml_tensor_extra_gpu * extra_src1 = (ggml_tensor_extra_gpu *) src1->extra; ggml_backend_vk_buffer_context * src1_buf_ctx = (ggml_backend_vk_buffer_context *)src1->buffer->context;
ggml_tensor_extra_gpu * extra_ids = (ggml_tensor_extra_gpu *) ids->extra; ggml_backend_vk_buffer_context * ids_buf_ctx = (ggml_backend_vk_buffer_context *)ids->buffer->context;
vk_buffer d_Qx; vk_buffer d_Qx;
size_t qx_buf_offset = 0; size_t qx_buf_offset = 0;
@ -3731,26 +3746,26 @@ static void ggml_vk_mul_mat_id_q_f16(ggml_backend_vk_context * ctx, vk_context&
return; return;
} }
vk_buffer d_D = extra->buffer_gpu.lock(); vk_buffer d_D = dst_buf_ctx->dev_buffer;
const uint64_t d_buf_offset = extra->offset + dst->view_offs; const uint64_t d_buf_offset = vk_tensor_offset(dst) + dst->view_offs;
GGML_ASSERT(d_D != nullptr); GGML_ASSERT(d_D != nullptr);
vk_buffer d_X; vk_buffer d_X;
uint64_t x_buf_offset = 0; uint64_t x_buf_offset = 0;
vk_buffer d_Y; vk_buffer d_Y;
uint64_t y_buf_offset = 0; uint64_t y_buf_offset = 0;
if (!src0_uma) { if (!src0_uma) {
d_Qx = extra_src0->buffer_gpu.lock(); d_Qx = src0_buf_ctx->dev_buffer;
qx_buf_offset = extra_src0->offset + src0->view_offs; qx_buf_offset = vk_tensor_offset(src0) + src0->view_offs;
GGML_ASSERT(d_Qx != nullptr); GGML_ASSERT(d_Qx != nullptr);
} }
if (!src1_uma) { if (!src1_uma) {
d_Qy = extra_src1->buffer_gpu.lock(); d_Qy = src1_buf_ctx->dev_buffer;
qy_buf_offset = extra_src1->offset + src1->view_offs; qy_buf_offset = vk_tensor_offset(src1) + src1->view_offs;
GGML_ASSERT(d_Qy != nullptr); GGML_ASSERT(d_Qy != nullptr);
} }
if (!ids_uma) { if (!ids_uma) {
d_ids = extra_ids->buffer_gpu.lock(); d_ids = ids_buf_ctx->dev_buffer;
ids_buf_offset = extra_ids->offset + ids->view_offs; ids_buf_offset = vk_tensor_offset(ids) + ids->view_offs;
GGML_ASSERT(d_ids != nullptr); GGML_ASSERT(d_ids != nullptr);
} }
if (qx_needs_dequant) { if (qx_needs_dequant) {
@ -3836,10 +3851,10 @@ static void ggml_vk_mul_mat_vec_id_q_f16(ggml_backend_vk_context * ctx, vk_conte
const uint64_t ne22 = dst->ne[2]; const uint64_t ne22 = dst->ne[2];
const uint64_t ne23 = dst->ne[3]; const uint64_t ne23 = dst->ne[3];
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) dst->extra; ggml_backend_vk_buffer_context * dst_buf_ctx = (ggml_backend_vk_buffer_context *)dst->buffer->context;
ggml_tensor_extra_gpu * extra_src0 = (ggml_tensor_extra_gpu *) src0->extra; ggml_backend_vk_buffer_context * src0_buf_ctx = (ggml_backend_vk_buffer_context *)src0->buffer->context;
ggml_tensor_extra_gpu * extra_src1 = (ggml_tensor_extra_gpu *) src1->extra; ggml_backend_vk_buffer_context * src1_buf_ctx = (ggml_backend_vk_buffer_context *)src1->buffer->context;
ggml_tensor_extra_gpu * extra_ids = (ggml_tensor_extra_gpu *) ids->extra; ggml_backend_vk_buffer_context * ids_buf_ctx = (ggml_backend_vk_buffer_context *)ids->buffer->context;
vk_buffer d_Qx; vk_buffer d_Qx;
size_t qx_buf_offset = 0; size_t qx_buf_offset = 0;
@ -3924,26 +3939,26 @@ static void ggml_vk_mul_mat_vec_id_q_f16(ggml_backend_vk_context * ctx, vk_conte
return; return;
} }
vk_buffer d_D = extra->buffer_gpu.lock(); vk_buffer d_D = dst_buf_ctx->dev_buffer;
const uint64_t d_buf_offset = extra->offset + dst->view_offs; const uint64_t d_buf_offset = vk_tensor_offset(dst) + dst->view_offs;
GGML_ASSERT(d_D != nullptr); GGML_ASSERT(d_D != nullptr);
vk_buffer d_X; vk_buffer d_X;
uint64_t x_buf_offset = 0; uint64_t x_buf_offset = 0;
vk_buffer d_Y; vk_buffer d_Y;
uint64_t y_buf_offset = 0; uint64_t y_buf_offset = 0;
if(!src0_uma) { if(!src0_uma) {
d_Qx = extra_src0->buffer_gpu.lock(); d_Qx = src0_buf_ctx->dev_buffer;
qx_buf_offset = extra_src0->offset + src0->view_offs; qx_buf_offset = vk_tensor_offset(src0) + src0->view_offs;
GGML_ASSERT(d_Qx != nullptr); GGML_ASSERT(d_Qx != nullptr);
} }
if(!src1_uma) { if(!src1_uma) {
d_Qy = extra_src1->buffer_gpu.lock(); d_Qy = src1_buf_ctx->dev_buffer;
qy_buf_offset = extra_src1->offset + src1->view_offs; qy_buf_offset = vk_tensor_offset(src1) + src1->view_offs;
GGML_ASSERT(d_Qy != nullptr); GGML_ASSERT(d_Qy != nullptr);
} }
if(!ids_uma) { if(!ids_uma) {
d_ids = extra_ids->buffer_gpu.lock(); d_ids = ids_buf_ctx->dev_buffer;
ids_buf_offset = extra_ids->offset + ids->view_offs; ids_buf_offset = vk_tensor_offset(ids) + ids->view_offs;
GGML_ASSERT(d_ids != nullptr); GGML_ASSERT(d_ids != nullptr);
} }
if (qx_needs_dequant) { if (qx_needs_dequant) {
@ -4250,7 +4265,7 @@ static void ggml_vk_op_f32(ggml_backend_vk_context * ctx, vk_context& subctx, co
std::cerr << "), " << ggml_op_name(op) << ", " << (dryrun ? "dryrun" : "") << ")"); std::cerr << "), " << ggml_op_name(op) << ", " << (dryrun ? "dryrun" : "") << ")");
GGML_ASSERT(op == GGML_OP_GET_ROWS || (!ggml_is_quantized(src0->type) && (src1 == nullptr || !ggml_is_quantized(src1->type)))); // NOLINT GGML_ASSERT(op == GGML_OP_GET_ROWS || (!ggml_is_quantized(src0->type) && (src1 == nullptr || !ggml_is_quantized(src1->type)))); // NOLINT
GGML_ASSERT(ggml_vk_op_supports_incontiguous(op) || ggml_vk_dim01_contiguous(src0)); // NOLINT GGML_ASSERT(ggml_vk_op_supports_incontiguous(op) || ggml_vk_dim01_contiguous(src0)); // NOLINT
GGML_ASSERT(dst->extra != nullptr); GGML_ASSERT(dst->buffer != nullptr);
const uint64_t ne00 = src0->ne[0]; const uint64_t ne00 = src0->ne[0];
const uint64_t ne01 = src0->ne[1]; const uint64_t ne01 = src0->ne[1];
const uint64_t ne02 = src0->ne[2]; const uint64_t ne02 = src0->ne[2];
@ -4296,10 +4311,10 @@ static void ggml_vk_op_f32(ggml_backend_vk_context * ctx, vk_context& subctx, co
const bool op_supports_incontiguous = ggml_vk_op_supports_incontiguous(op); const bool op_supports_incontiguous = ggml_vk_op_supports_incontiguous(op);
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) dst->extra; ggml_backend_vk_buffer_context * dst_buf_ctx = (ggml_backend_vk_buffer_context *)dst->buffer->context;
ggml_tensor_extra_gpu * extra_src0 = (ggml_tensor_extra_gpu *) src0->extra; ggml_backend_vk_buffer_context * src0_buf_ctx = (ggml_backend_vk_buffer_context *)src0->buffer->context;
ggml_tensor_extra_gpu * extra_src1 = use_src1 ? (ggml_tensor_extra_gpu *) src1->extra : nullptr; ggml_backend_vk_buffer_context * src1_buf_ctx = use_src1 ? (ggml_backend_vk_buffer_context *)src1->buffer->context : nullptr;
ggml_tensor_extra_gpu * extra_src2 = use_src2 ? (ggml_tensor_extra_gpu *) src2->extra : nullptr; ggml_backend_vk_buffer_context * src2_buf_ctx = use_src2 ? (ggml_backend_vk_buffer_context *)src2->buffer->context : nullptr;
vk_buffer d_X = nullptr; vk_buffer d_X = nullptr;
size_t x_buf_offset = 0; size_t x_buf_offset = 0;
@ -4330,7 +4345,7 @@ static void ggml_vk_op_f32(ggml_backend_vk_context * ctx, vk_context& subctx, co
uint64_t z_sz = use_src2 ? ggml_type_size(src2->type) * ne2 : 0; uint64_t z_sz = use_src2 ? ggml_type_size(src2->type) * ne2 : 0;
uint64_t d_sz = ggml_type_size(dst->type) * ned; uint64_t d_sz = ggml_type_size(dst->type) * ned;
vk_buffer d_D = extra->buffer_gpu.lock(); vk_buffer d_D = dst_buf_ctx->dev_buffer;
// Workaround for tiny tensor inputs on ROPE // Workaround for tiny tensor inputs on ROPE
if (op == GGML_OP_ROPE && use_src1 && y_sz > d_D->size) { if (op == GGML_OP_ROPE && use_src1 && y_sz > d_D->size) {
@ -4338,21 +4353,21 @@ static void ggml_vk_op_f32(ggml_backend_vk_context * ctx, vk_context& subctx, co
} }
GGML_ASSERT(d_D != nullptr); GGML_ASSERT(d_D != nullptr);
uint64_t d_buf_offset = ((extra->offset + dst->view_offs) / ctx->device->properties.limits.minStorageBufferOffsetAlignment) * ctx->device->properties.limits.minStorageBufferOffsetAlignment; uint64_t d_buf_offset = ((vk_tensor_offset(dst) + dst->view_offs) / ctx->device->properties.limits.minStorageBufferOffsetAlignment) * ctx->device->properties.limits.minStorageBufferOffsetAlignment;
GGML_ASSERT(d_buf_offset == extra->offset || op == GGML_OP_CPY); // NOLINT GGML_ASSERT(d_buf_offset == vk_tensor_offset(dst) || op == GGML_OP_CPY); // NOLINT
if(!src0_uma) { if(!src0_uma) {
d_X = extra_src0->buffer_gpu.lock(); d_X = src0_buf_ctx->dev_buffer;
x_buf_offset = extra_src0->offset + src0->view_offs; x_buf_offset = vk_tensor_offset(src0) + src0->view_offs;
GGML_ASSERT(d_X != nullptr); GGML_ASSERT(d_X != nullptr);
} }
if (use_src1 && !src1_uma) { if (use_src1 && !src1_uma) {
d_Y = extra_src1->buffer_gpu.lock(); d_Y = src1_buf_ctx->dev_buffer;
y_buf_offset = extra_src1->offset + src1->view_offs; y_buf_offset = vk_tensor_offset(src1) + src1->view_offs;
GGML_ASSERT(d_Y != nullptr); GGML_ASSERT(d_Y != nullptr);
} }
if (use_src2 && !src2_uma) { if (use_src2 && !src2_uma) {
d_Z = extra_src2->buffer_gpu.lock(); d_Z = src2_buf_ctx->dev_buffer;
z_buf_offset = extra_src2->offset + src2->view_offs; z_buf_offset = vk_tensor_offset(src2) + src2->view_offs;
GGML_ASSERT(d_Z != nullptr); GGML_ASSERT(d_Z != nullptr);
} }
@ -4531,11 +4546,10 @@ static void ggml_vk_get_rows(ggml_backend_vk_context * ctx, vk_context& subctx,
} }
static void ggml_vk_acc(ggml_backend_vk_context * ctx, vk_context& subctx, const ggml_tensor * src0, const ggml_tensor * src1, ggml_tensor * dst, bool dryrun = false) { static void ggml_vk_acc(ggml_backend_vk_context * ctx, vk_context& subctx, const ggml_tensor * src0, const ggml_tensor * src1, ggml_tensor * dst, bool dryrun = false) {
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) dst->extra;
const uint32_t src0_type_size = ggml_type_size(src0->type); const uint32_t src0_type_size = ggml_type_size(src0->type);
const uint32_t src1_type_size = ggml_type_size(src1->type); const uint32_t src1_type_size = ggml_type_size(src1->type);
const uint32_t dst_type_size = ggml_type_size(dst->type); const uint32_t dst_type_size = ggml_type_size(dst->type);
const uint32_t d_offset = ((extra->offset + dst->view_offs) % ctx->device->properties.limits.minStorageBufferOffsetAlignment) / dst_type_size; const uint32_t d_offset = ((vk_tensor_offset(dst) + dst->view_offs) % ctx->device->properties.limits.minStorageBufferOffsetAlignment) / dst_type_size;
int nb1 = dst->op_params[0] / 4; // 4 bytes of float32 int nb1 = dst->op_params[0] / 4; // 4 bytes of float32
int nb2 = dst->op_params[1] / 4; // 4 bytes of float32 int nb2 = dst->op_params[1] / 4; // 4 bytes of float32
@ -4724,10 +4738,9 @@ static void ggml_vk_repeat(ggml_backend_vk_context * ctx, vk_context& subctx, co
} }
static void ggml_vk_cpy(ggml_backend_vk_context * ctx, vk_context& subctx, const ggml_tensor * src0, ggml_tensor * dst, bool dryrun = false) { static void ggml_vk_cpy(ggml_backend_vk_context * ctx, vk_context& subctx, const ggml_tensor * src0, ggml_tensor * dst, bool dryrun = false) {
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) dst->extra;
const uint32_t src0_type_size = ggml_type_size(src0->type); const uint32_t src0_type_size = ggml_type_size(src0->type);
const uint32_t dst_type_size = ggml_type_size(dst->type); const uint32_t dst_type_size = ggml_type_size(dst->type);
const uint32_t d_offset = ((extra->offset + dst->view_offs) % ctx->device->properties.limits.minStorageBufferOffsetAlignment) / dst_type_size; const uint32_t d_offset = ((vk_tensor_offset(dst) + dst->view_offs) % ctx->device->properties.limits.minStorageBufferOffsetAlignment) / dst_type_size;
ggml_vk_op_f32<vk_op_unary_push_constants>(ctx, subctx, src0, nullptr, nullptr, dst, GGML_OP_CPY, { ggml_vk_op_f32<vk_op_unary_push_constants>(ctx, subctx, src0, nullptr, nullptr, dst, GGML_OP_CPY, {
(uint32_t)ggml_nelements(src0), (uint32_t)ggml_nelements(src0),
@ -5535,14 +5548,6 @@ static void ggml_vk_test_dequant_matmul(ggml_backend_vk_context * ctx, size_t m,
} }
#endif #endif
static ggml_tensor_extra_gpu * ggml_vk_tensor_create_extra(ggml_tensor * tensor) {
VK_LOG_DEBUG("ggml_vk_create_extra(" << tensor << " (" << tensor->name << ", " << ggml_op_name(tensor->op) << "))");
ggml_tensor_extra_gpu * extra = new ggml_tensor_extra_gpu;
extra->reset();
tensor->extra = extra;
return extra;
}
static void ggml_vk_preallocate_buffers(ggml_backend_vk_context * ctx) { static void ggml_vk_preallocate_buffers(ggml_backend_vk_context * ctx) {
#if defined(GGML_VULKAN_RUN_TESTS) #if defined(GGML_VULKAN_RUN_TESTS)
ggml_vk_test_dequant(ctx, 7680, GGML_TYPE_F32); ggml_vk_test_dequant(ctx, 7680, GGML_TYPE_F32);
@ -5711,9 +5716,7 @@ static bool ggml_vk_compute_forward(ggml_backend_vk_context* ctx, ggml_tensor* t
// Returns true if node has enqueued work into the queue, false otherwise // Returns true if node has enqueued work into the queue, false otherwise
// If submit is true the current all operations queued so far are being submitted to Vulkan to overlap cmdlist creation and GPU execution. // If submit is true the current all operations queued so far are being submitted to Vulkan to overlap cmdlist creation and GPU execution.
static bool ggml_vk_build_graph(ggml_backend_vk_context * ctx, ggml_tensor * node, int node_idx, ggml_tensor *node_begin, int node_idx_begin, bool dryrun, bool last_node, bool submit){ static bool ggml_vk_build_graph(ggml_backend_vk_context * ctx, ggml_tensor * node, int node_idx, ggml_tensor *node_begin, int node_idx_begin, bool dryrun, bool last_node, bool submit){
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) node->extra; if (ggml_is_empty(node) || !node->buffer) {
if (ggml_is_empty(node) || extra == nullptr) {
return false; return false;
} }
@ -5965,7 +5968,7 @@ static bool ggml_vk_build_graph(ggml_backend_vk_context * ctx, ggml_tensor * nod
} }
static bool ggml_vk_compute_forward(ggml_backend_vk_context * ctx, ggml_tensor * tensor, int tensor_idx, bool use_fence = true){ static bool ggml_vk_compute_forward(ggml_backend_vk_context * ctx, ggml_tensor * tensor, int tensor_idx, bool use_fence = true){
ggml_tensor_extra_gpu * extra = nullptr; ggml_backend_buffer * buf = nullptr;
switch (tensor->op) { switch (tensor->op) {
case GGML_OP_ADD: case GGML_OP_ADD:
@ -6001,7 +6004,7 @@ static bool ggml_vk_compute_forward(ggml_backend_vk_context * ctx, ggml_tensor *
case GGML_OP_TIMESTEP_EMBEDDING: case GGML_OP_TIMESTEP_EMBEDDING:
case GGML_OP_LEAKY_RELU: case GGML_OP_LEAKY_RELU:
case GGML_OP_REPEAT: case GGML_OP_REPEAT:
extra = (ggml_tensor_extra_gpu *) tensor->extra; buf = tensor->buffer;
break; break;
case GGML_OP_UNARY: case GGML_OP_UNARY:
@ -6011,7 +6014,7 @@ static bool ggml_vk_compute_forward(ggml_backend_vk_context * ctx, ggml_tensor *
case GGML_UNARY_OP_GELU_QUICK: case GGML_UNARY_OP_GELU_QUICK:
case GGML_UNARY_OP_RELU: case GGML_UNARY_OP_RELU:
case GGML_UNARY_OP_TANH: case GGML_UNARY_OP_TANH:
extra = (ggml_tensor_extra_gpu *) tensor->extra; buf = tensor->buffer;
break; break;
default: default:
return false; return false;
@ -6019,14 +6022,14 @@ static bool ggml_vk_compute_forward(ggml_backend_vk_context * ctx, ggml_tensor *
break; break;
case GGML_OP_MUL_MAT: case GGML_OP_MUL_MAT:
case GGML_OP_MUL_MAT_ID: case GGML_OP_MUL_MAT_ID:
extra = (ggml_tensor_extra_gpu *) tensor->extra; buf = tensor->buffer;
break; break;
default: default:
return false; return false;
} }
if (extra == nullptr) { if (buf == nullptr) {
return false; return false;
} }
@ -6167,42 +6170,6 @@ GGML_CALL static void ggml_vk_get_device_description(int device, char * descript
// device backend // device backend
static void * const vk_ptr_base = (void *)(uintptr_t) 0x1000; // NOLINT
struct ggml_backend_vk_buffer_context {
vk_device_ref device;
vk_buffer dev_buffer;
ggml_tensor_extra_gpu * temp_tensor_extras = nullptr;
size_t temp_tensor_extra_index = 0;
std::string name;
ggml_backend_vk_buffer_context(vk_device_ref device, vk_buffer&& dev_buffer, std::string& name) :
device(device),
dev_buffer(dev_buffer),
name(name) {
}
~ggml_backend_vk_buffer_context() {
ggml_vk_destroy_buffer(dev_buffer);
if (temp_tensor_extras != nullptr) {
delete[] temp_tensor_extras;
}
}
ggml_tensor_extra_gpu * ggml_vk_alloc_temp_tensor_extra() {
if (temp_tensor_extras == nullptr) {
temp_tensor_extras = new ggml_tensor_extra_gpu[GGML_VK_MAX_NODES];
}
size_t alloc_index = temp_tensor_extra_index;
temp_tensor_extra_index = (temp_tensor_extra_index + 1) % GGML_VK_MAX_NODES;
ggml_tensor_extra_gpu * extra = &temp_tensor_extras[alloc_index];
extra->reset();
return extra;
}
};
GGML_CALL static const char * ggml_backend_vk_buffer_get_name(ggml_backend_buffer_t buffer) { GGML_CALL static const char * ggml_backend_vk_buffer_get_name(ggml_backend_buffer_t buffer) {
ggml_backend_vk_buffer_context * ctx = (ggml_backend_vk_buffer_context *)buffer->context; ggml_backend_vk_buffer_context * ctx = (ggml_backend_vk_buffer_context *)buffer->context;
return ctx->name.c_str(); return ctx->name.c_str();
@ -6227,51 +6194,37 @@ GGML_CALL static void * ggml_backend_vk_buffer_get_base(ggml_backend_buffer_t bu
GGML_CALL static void ggml_backend_vk_buffer_init_tensor(ggml_backend_buffer_t buffer, ggml_tensor * tensor) { GGML_CALL static void ggml_backend_vk_buffer_init_tensor(ggml_backend_buffer_t buffer, ggml_tensor * tensor) {
VK_LOG_DEBUG("ggml_backend_vk_buffer_init_tensor(" << buffer << " (" << buffer->context << "), " << tensor << ")"); VK_LOG_DEBUG("ggml_backend_vk_buffer_init_tensor(" << buffer << " (" << buffer->context << "), " << tensor << ")");
ggml_backend_vk_buffer_context * ctx = (ggml_backend_vk_buffer_context *)buffer->context;
if (tensor->view_src != nullptr) { if (tensor->view_src != nullptr) {
GGML_ASSERT(tensor->view_src->buffer->buft == buffer->buft); GGML_ASSERT(tensor->view_src->buffer->buft == buffer->buft);
GGML_ASSERT(tensor->view_src->extra != nullptr);
tensor->extra = tensor->view_src->extra;
} else {
ggml_tensor_extra_gpu * extra = ctx->ggml_vk_alloc_temp_tensor_extra();
extra->buffer_gpu = ctx->dev_buffer;
extra->offset = (uint8_t *) tensor->data - (uint8_t *) vk_ptr_base;
tensor->extra = extra;
} }
} }
GGML_CALL static void ggml_backend_vk_buffer_set_tensor(ggml_backend_buffer_t buffer, ggml_tensor * tensor, const void * data, size_t offset, size_t size) { GGML_CALL static void ggml_backend_vk_buffer_set_tensor(ggml_backend_buffer_t buffer, ggml_tensor * tensor, const void * data, size_t offset, size_t size) {
VK_LOG_DEBUG("ggml_backend_vk_buffer_set_tensor(" << buffer << ", " << tensor << ", " << data << ", " << offset << ", " << size << ")"); VK_LOG_DEBUG("ggml_backend_vk_buffer_set_tensor(" << buffer << ", " << tensor << ", " << data << ", " << offset << ", " << size << ")");
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) tensor->extra; ggml_backend_vk_buffer_context * buf_ctx = (ggml_backend_vk_buffer_context *)buffer->context;
vk_buffer buf = buf_ctx->dev_buffer;
vk_buffer buf = extra->buffer_gpu.lock(); ggml_vk_buffer_write(buf, vk_tensor_offset(tensor) + tensor->view_offs + offset, data, size);
ggml_vk_buffer_write(buf, extra->offset + tensor->view_offs + offset, data, size);
GGML_UNUSED(buffer);
} }
GGML_CALL static void ggml_backend_vk_buffer_get_tensor(ggml_backend_buffer_t buffer, const ggml_tensor * tensor, void * data, size_t offset, size_t size) { GGML_CALL static void ggml_backend_vk_buffer_get_tensor(ggml_backend_buffer_t buffer, const ggml_tensor * tensor, void * data, size_t offset, size_t size) {
VK_LOG_DEBUG("ggml_backend_vk_buffer_get_tensor(" << buffer << ", " << tensor << ", " << data << ", " << offset << ", " << size << ")"); VK_LOG_DEBUG("ggml_backend_vk_buffer_get_tensor(" << buffer << ", " << tensor << ", " << data << ", " << offset << ", " << size << ")");
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) tensor->extra; ggml_backend_vk_buffer_context * buf_ctx = (ggml_backend_vk_buffer_context *)buffer->context;
vk_buffer buf = extra->buffer_gpu.lock(); vk_buffer buf = buf_ctx->dev_buffer;
ggml_vk_buffer_read(buf, extra->offset + tensor->view_offs + offset, data, size); ggml_vk_buffer_read(buf, vk_tensor_offset(tensor) + tensor->view_offs + offset, data, size);
GGML_UNUSED(buffer);
} }
GGML_CALL static bool ggml_backend_vk_buffer_cpy_tensor(ggml_backend_buffer_t buffer, const ggml_tensor * src, ggml_tensor * dst) { GGML_CALL static bool ggml_backend_vk_buffer_cpy_tensor(ggml_backend_buffer_t buffer, const ggml_tensor * src, ggml_tensor * dst) {
if (ggml_backend_buffer_is_vk(src->buffer)) { if (ggml_backend_buffer_is_vk(src->buffer)) {
ggml_tensor_extra_gpu * src_extra = (ggml_tensor_extra_gpu *) src->extra; ggml_backend_vk_buffer_context * src_buf_ctx = (ggml_backend_vk_buffer_context *)src->buffer->context;
ggml_tensor_extra_gpu * dst_extra = (ggml_tensor_extra_gpu *) dst->extra; ggml_backend_vk_buffer_context * dst_buf_ctx = (ggml_backend_vk_buffer_context *)dst->buffer->context;
vk_buffer src_buf = src_extra->buffer_gpu.lock(); vk_buffer src_buf = src_buf_ctx->dev_buffer;
vk_buffer dst_buf = dst_extra->buffer_gpu.lock(); vk_buffer dst_buf = dst_buf_ctx->dev_buffer;
ggml_vk_buffer_copy(dst_buf, dst_extra->offset + dst->view_offs, src_buf, src_extra->offset + src->view_offs, ggml_nbytes(src)); ggml_vk_buffer_copy(dst_buf, vk_tensor_offset(dst) + dst->view_offs, src_buf, vk_tensor_offset(src) + src->view_offs, ggml_nbytes(src));
return true; return true;
} }
@ -6449,7 +6402,7 @@ GGML_CALL static void ggml_backend_vk_set_tensor_async(ggml_backend_t backend, g
ggml_backend_vk_context * ctx = (ggml_backend_vk_context *)backend->context; ggml_backend_vk_context * ctx = (ggml_backend_vk_context *)backend->context;
GGML_ASSERT((tensor->buffer->buft == ggml_backend_vk_get_default_buffer_type(backend) || tensor->buffer->buft == ggml_backend_vk_host_buffer_type()) && "unsupported buffer type"); GGML_ASSERT((tensor->buffer->buft == ggml_backend_vk_get_default_buffer_type(backend) || tensor->buffer->buft == ggml_backend_vk_host_buffer_type()) && "unsupported buffer type");
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) tensor->extra; ggml_backend_vk_buffer_context * buf_ctx = (ggml_backend_vk_buffer_context *)tensor->buffer->context;
vk_context transfer_ctx; vk_context transfer_ctx;
@ -6462,9 +6415,9 @@ GGML_CALL static void ggml_backend_vk_set_tensor_async(ggml_backend_t backend, g
transfer_ctx = ctx->transfer_ctx.lock(); transfer_ctx = ctx->transfer_ctx.lock();
} }
vk_buffer buf = extra->buffer_gpu.lock(); vk_buffer buf = buf_ctx->dev_buffer;
ggml_vk_buffer_write_async(transfer_ctx, buf, extra->offset + tensor->view_offs + offset, data, size); ggml_vk_buffer_write_async(transfer_ctx, buf, vk_tensor_offset(tensor) + tensor->view_offs + offset, data, size);
} }
GGML_CALL static void ggml_backend_vk_get_tensor_async(ggml_backend_t backend, const ggml_tensor * tensor, void * data, size_t offset, size_t size) { GGML_CALL static void ggml_backend_vk_get_tensor_async(ggml_backend_t backend, const ggml_tensor * tensor, void * data, size_t offset, size_t size) {
@ -6472,7 +6425,7 @@ GGML_CALL static void ggml_backend_vk_get_tensor_async(ggml_backend_t backend, c
ggml_backend_vk_context * ctx = (ggml_backend_vk_context *)backend->context; ggml_backend_vk_context * ctx = (ggml_backend_vk_context *)backend->context;
GGML_ASSERT((tensor->buffer->buft == ggml_backend_vk_get_default_buffer_type(backend) || tensor->buffer->buft == ggml_backend_vk_host_buffer_type()) && "unsupported buffer type"); GGML_ASSERT((tensor->buffer->buft == ggml_backend_vk_get_default_buffer_type(backend) || tensor->buffer->buft == ggml_backend_vk_host_buffer_type()) && "unsupported buffer type");
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) tensor->extra; ggml_backend_vk_buffer_context * buf_ctx = (ggml_backend_vk_buffer_context *)tensor->buffer->context;
vk_context transfer_ctx; vk_context transfer_ctx;
@ -6485,17 +6438,17 @@ GGML_CALL static void ggml_backend_vk_get_tensor_async(ggml_backend_t backend, c
transfer_ctx = ctx->transfer_ctx.lock(); transfer_ctx = ctx->transfer_ctx.lock();
} }
vk_buffer buf = extra->buffer_gpu.lock(); vk_buffer buf = buf_ctx->dev_buffer;
ggml_vk_buffer_read_async(transfer_ctx, buf, extra->offset + tensor->view_offs + offset, data, size); ggml_vk_buffer_read_async(transfer_ctx, buf, vk_tensor_offset(tensor) + tensor->view_offs + offset, data, size);
} }
GGML_CALL static bool ggml_backend_vk_cpy_tensor_async(ggml_backend_t backend, const ggml_tensor * src, ggml_tensor * dst) { GGML_CALL static bool ggml_backend_vk_cpy_tensor_async(ggml_backend_t backend, const ggml_tensor * src, ggml_tensor * dst) {
VK_LOG_DEBUG("ggml_backend_vk_cpy_tensor_async()"); VK_LOG_DEBUG("ggml_backend_vk_cpy_tensor_async()");
ggml_backend_vk_context * ctx = (ggml_backend_vk_context *)backend->context; ggml_backend_vk_context * ctx = (ggml_backend_vk_context *)backend->context;
if ((dst->buffer->buft == ggml_backend_vk_get_default_buffer_type(backend) || dst->buffer->buft == ggml_backend_vk_host_buffer_type()) && ggml_backend_buffer_is_vk(src->buffer)) { if ((dst->buffer->buft == ggml_backend_vk_get_default_buffer_type(backend) || dst->buffer->buft == ggml_backend_vk_host_buffer_type()) && ggml_backend_buffer_is_vk(src->buffer)) {
ggml_tensor_extra_gpu * src_extra = (ggml_tensor_extra_gpu *) src->extra; ggml_backend_vk_buffer_context * src_buf_ctx = (ggml_backend_vk_buffer_context *)src->buffer->context;
ggml_tensor_extra_gpu * dst_extra = (ggml_tensor_extra_gpu *) dst->extra; ggml_backend_vk_buffer_context * dst_buf_ctx = (ggml_backend_vk_buffer_context *)dst->buffer->context;
vk_context transfer_ctx; vk_context transfer_ctx;
@ -6508,10 +6461,10 @@ GGML_CALL static bool ggml_backend_vk_cpy_tensor_async(ggml_backend_t backend, c
transfer_ctx = ctx->transfer_ctx.lock(); transfer_ctx = ctx->transfer_ctx.lock();
} }
vk_buffer src_buf = src_extra->buffer_gpu.lock(); vk_buffer src_buf = src_buf_ctx->dev_buffer;
vk_buffer dst_buf = dst_extra->buffer_gpu.lock(); vk_buffer dst_buf = dst_buf_ctx->dev_buffer;
ggml_vk_buffer_copy_async(transfer_ctx, dst_buf, dst_extra->offset + dst->view_offs, src_buf, src_extra->offset + src->view_offs, ggml_nbytes(src)); ggml_vk_buffer_copy_async(transfer_ctx, dst_buf, vk_tensor_offset(dst) + dst->view_offs, src_buf, vk_tensor_offset(src) + src->view_offs, ggml_nbytes(src));
return true; return true;
} }
@ -6949,10 +6902,10 @@ static void ggml_vk_print_tensor(const ggml_tensor * tensor, const char * name)
const size_t tensor_size = ggml_nbytes(tensor); const size_t tensor_size = ggml_nbytes(tensor);
tensor_data = malloc(tensor_size); tensor_data = malloc(tensor_size);
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) tensor->extra; ggml_backend_vk_buffer_context * buf_ctx = (ggml_backend_vk_buffer_context *)tensor->buffer->context;
vk_buffer buffer_gpu = extra->buffer_gpu.lock(); vk_buffer buffer_gpu = buf_ctx->dev_buffer;
ggml_vk_buffer_read(buffer_gpu, extra->offset + tensor->view_offs, tensor_data, tensor_size); ggml_vk_buffer_read(buffer_gpu, vk_tensor_offset(tensor) + tensor->view_offs, tensor_data, tensor_size);
} }
std::cerr << "TENSOR CHECK " << name << " (" << tensor->name << "): " << ggml_op_name(tensor->op) << std::endl; std::cerr << "TENSOR CHECK " << name << " (" << tensor->name << "): " << ggml_op_name(tensor->op) << std::endl;
@ -7026,9 +6979,9 @@ static void ggml_vk_check_results_0(ggml_tensor * tensor) {
memcpy(src0_clone->data, src0->data, src0_size); memcpy(src0_clone->data, src0->data, src0_size);
memcpy(src0_clone->nb, src0->nb, sizeof(size_t) * GGML_MAX_DIMS); memcpy(src0_clone->nb, src0->nb, sizeof(size_t) * GGML_MAX_DIMS);
} else if (ggml_backend_buffer_is_vk(src0->buffer)) { } else if (ggml_backend_buffer_is_vk(src0->buffer)) {
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) src0->extra; ggml_backend_vk_buffer_context * buf_ctx = (ggml_backend_vk_buffer_context *)src0->buffer->context;
vk_buffer buffer_gpu = extra->buffer_gpu.lock(); vk_buffer& buffer_gpu = buf_ctx->dev_buffer;
uint64_t offset = extra->offset + src0->view_offs; uint64_t offset = vk_tensor_offset(src0) + src0->view_offs;
if (!ggml_is_contiguous(src0) && ggml_vk_dim01_contiguous(src0)) { if (!ggml_is_contiguous(src0) && ggml_vk_dim01_contiguous(src0)) {
for (int i3 = 0; i3 < src0->ne[3]; i3++) { for (int i3 = 0; i3 < src0->ne[3]; i3++) {
for (int i2 = 0; i2 < src0->ne[2]; i2++) { for (int i2 = 0; i2 < src0->ne[2]; i2++) {
@ -7068,9 +7021,9 @@ static void ggml_vk_check_results_0(ggml_tensor * tensor) {
memcpy(src1_clone->data, src1->data, src1_size); memcpy(src1_clone->data, src1->data, src1_size);
memcpy(src1_clone->nb, src1->nb, sizeof(size_t) * GGML_MAX_DIMS); memcpy(src1_clone->nb, src1->nb, sizeof(size_t) * GGML_MAX_DIMS);
} else if (ggml_backend_buffer_is_vk(src1->buffer)) { } else if (ggml_backend_buffer_is_vk(src1->buffer)) {
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) src1->extra; ggml_backend_vk_buffer_context * buf_ctx = (ggml_backend_vk_buffer_context *)src1->buffer->context;
vk_buffer buffer_gpu = extra->buffer_gpu.lock(); vk_buffer& buffer_gpu = buf_ctx->dev_buffer;
uint64_t offset = extra->offset + src1->view_offs; uint64_t offset = vk_tensor_offset(src1) + src1->view_offs;
if (!ggml_is_contiguous(src1) && ggml_vk_dim01_contiguous(src1)) { if (!ggml_is_contiguous(src1) && ggml_vk_dim01_contiguous(src1)) {
for (int i3 = 0; i3 < src1->ne[3]; i3++) { for (int i3 = 0; i3 < src1->ne[3]; i3++) {
for (int i2 = 0; i2 < src1->ne[2]; i2++) { for (int i2 = 0; i2 < src1->ne[2]; i2++) {
@ -7110,9 +7063,9 @@ static void ggml_vk_check_results_0(ggml_tensor * tensor) {
memcpy(src2_clone->data, src2->data, src2_size); memcpy(src2_clone->data, src2->data, src2_size);
memcpy(src2_clone->nb, src2->nb, sizeof(size_t) * GGML_MAX_DIMS); memcpy(src2_clone->nb, src2->nb, sizeof(size_t) * GGML_MAX_DIMS);
} else if (ggml_backend_buffer_is_vk(src2->buffer)) { } else if (ggml_backend_buffer_is_vk(src2->buffer)) {
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) src2->extra; ggml_backend_vk_buffer_context * buf_ctx = (ggml_backend_vk_buffer_context *)src2->buffer->context;
vk_buffer buffer_gpu = extra->buffer_gpu.lock(); vk_buffer& buffer_gpu = buf_ctx->dev_buffer;
uint64_t offset = extra->offset + src2->view_offs; uint64_t offset = vk_tensor_offset(src2) + src2->view_offs;
if (!ggml_is_contiguous(src2) && ggml_vk_dim01_contiguous(src2)) { if (!ggml_is_contiguous(src2) && ggml_vk_dim01_contiguous(src2)) {
for (int i3 = 0; i3 < src2->ne[3]; i3++) { for (int i3 = 0; i3 < src2->ne[3]; i3++) {
for (int i2 = 0; i2 < src2->ne[2]; i2++) { for (int i2 = 0; i2 < src2->ne[2]; i2++) {
@ -7167,7 +7120,7 @@ static void ggml_vk_check_results_0(ggml_tensor * tensor) {
} else if (tensor->op == GGML_OP_PAD) { } else if (tensor->op == GGML_OP_PAD) {
tensor_clone = ggml_pad(ggml_ctx, src0_clone, tensor->ne[0] - src0_clone->ne[0], tensor->ne[1] - src0_clone->ne[1], tensor->ne[2] - src0_clone->ne[2], tensor->ne[3] - src0_clone->ne[3]); tensor_clone = ggml_pad(ggml_ctx, src0_clone, tensor->ne[0] - src0_clone->ne[0], tensor->ne[1] - src0_clone->ne[1], tensor->ne[2] - src0_clone->ne[2], tensor->ne[3] - src0_clone->ne[3]);
} else if (tensor->op == GGML_OP_REPEAT) { } else if (tensor->op == GGML_OP_REPEAT) {
tensor_clone = ggml_repeat(ggml_ctx, src0_clone, src1_clone); tensor_clone = ggml_repeat(ggml_ctx, src0_clone, tensor);
} else if (tensor->op == GGML_OP_ADD) { } else if (tensor->op == GGML_OP_ADD) {
tensor_clone = ggml_add(ggml_ctx, src0_clone, src1_clone); tensor_clone = ggml_add(ggml_ctx, src0_clone, src1_clone);
} else if (tensor->op == GGML_OP_ACC) { } else if (tensor->op == GGML_OP_ACC) {
@ -7312,14 +7265,15 @@ static void ggml_vk_check_results_1(ggml_tensor * tensor) {
size_t tensor_size = ggml_nbytes(tensor); size_t tensor_size = ggml_nbytes(tensor);
tensor_data = malloc(tensor_size); tensor_data = malloc(tensor_size);
ggml_tensor_extra_gpu * extra = (ggml_tensor_extra_gpu *) tensor->extra; ggml_backend_vk_buffer_context * buf_ctx = (ggml_backend_vk_buffer_context *)tensor->buffer->context;
vk_buffer buffer_gpu = extra->buffer_gpu.lock(); vk_buffer& buffer_gpu = buf_ctx->dev_buffer;
if (extra->offset + tensor->view_offs + tensor_size >= buffer_gpu->size) { uint64_t offset = vk_tensor_offset(tensor) + tensor->view_offs;
tensor_size = buffer_gpu->size - (extra->offset + tensor->view_offs); if (offset + tensor_size >= buffer_gpu->size) {
tensor_size = buffer_gpu->size - offset;
} }
ggml_vk_buffer_read(buffer_gpu, extra->offset + tensor->view_offs, tensor_data, tensor_size); ggml_vk_buffer_read(buffer_gpu, offset, tensor_data, tensor_size);
} }
float first_error_result = -1.0f; float first_error_result = -1.0f;