mirror of
https://github.com/ggerganov/llama.cpp.git
synced 2024-12-25 22:08:46 +01:00
ggml : add ggml_cont() + optimize ggml_cpy() for contiguous dst
This commit is contained in:
parent
9d634ef452
commit
c3ac702e5e
254
ggml.c
254
ggml.c
@ -2609,6 +2609,7 @@ static const char * GGML_OP_LABEL[GGML_OP_COUNT] = {
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"SCALE",
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"CPY",
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"CONT",
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"RESHAPE",
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"VIEW",
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"PERMUTE",
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@ -2624,7 +2625,7 @@ static const char * GGML_OP_LABEL[GGML_OP_COUNT] = {
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"FLASH_FF",
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};
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static_assert(GGML_OP_COUNT == 35, "GGML_OP_COUNT != 35");
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static_assert(GGML_OP_COUNT == 36, "GGML_OP_COUNT != 36");
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static const char * GGML_OP_SYMBOL[GGML_OP_COUNT] = {
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"none",
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@ -2653,6 +2654,7 @@ static const char * GGML_OP_SYMBOL[GGML_OP_COUNT] = {
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"x*v",
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"x-\\>y",
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"cont(x)",
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"reshape(x)",
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"view(x)",
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"permute(x)",
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@ -2668,7 +2670,7 @@ static const char * GGML_OP_SYMBOL[GGML_OP_COUNT] = {
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"flash_ff(x)",
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};
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static_assert(GGML_OP_COUNT == 35, "GGML_OP_COUNT != 35");
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static_assert(GGML_OP_COUNT == 36, "GGML_OP_COUNT != 36");
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static_assert(sizeof(struct ggml_object)%GGML_MEM_ALIGN == 0, "ggml_object size must be a multiple of GGML_MEM_ALIGN");
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static_assert(sizeof(struct ggml_tensor)%GGML_MEM_ALIGN == 0, "ggml_tensor size must be a multiple of GGML_MEM_ALIGN");
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@ -4301,6 +4303,41 @@ struct ggml_tensor * ggml_cpy_inplace(
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return ggml_cpy_impl(ctx, a, b, true);
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}
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// ggml_cont
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struct ggml_tensor * ggml_cont_impl(
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struct ggml_context * ctx,
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struct ggml_tensor * a,
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bool inplace) {
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bool is_node = false;
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if (!inplace && a->grad) {
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GGML_ASSERT(false); // TODO: implement backward
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is_node = true;
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}
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struct ggml_tensor * result = inplace ? ggml_view_tensor(ctx, a) : ggml_dup_tensor(ctx, a);
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result->op = GGML_OP_CONT;
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result->grad = is_node ? ggml_dup_tensor(ctx, result) : NULL;
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result->src0 = a;
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result->src1 = NULL;
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return result;
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}
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struct ggml_tensor * ggml_cont(
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struct ggml_context * ctx,
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struct ggml_tensor * a) {
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return ggml_cont_impl(ctx, a, false);
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}
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struct ggml_tensor * ggml_cont_inplace(
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struct ggml_context * ctx,
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struct ggml_tensor * a) {
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return ggml_cont_impl(ctx, a, true);
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}
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// ggml_reshape
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struct ggml_tensor * ggml_reshape(
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@ -4843,6 +4880,85 @@ static void ggml_compute_forward_dup_f16(
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// TODO: add more special-case implementations for tensor shapes/strides that can benefit from memcpy
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if (ggml_is_contiguous(dst)) {
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if (src0->nb[0] == sizeof(ggml_fp16_t)) {
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if (dst->type == GGML_TYPE_F16) {
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size_t id = 0;
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const size_t rs = ne00*nb00;
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for (int i03 = 0; i03 < ne03; i03++) {
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for (int i02 = 0; i02 < ne02; i02++) {
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for (int i01 = 0; i01 < ne01; i01++) {
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const char * src0_ptr = (char *) src0->data + i01*nb01 + i02*nb02 + i03*nb03;
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char * dst_ptr = (char *) dst->data + id*rs;
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memcpy(dst_ptr, src0_ptr, rs);
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id++;
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}
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}
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}
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} else if (dst->type == GGML_TYPE_F32) {
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size_t id = 0;
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float * dst_ptr = (float *) dst->data;
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for (int i03 = 0; i03 < ne03; i03++) {
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for (int i02 = 0; i02 < ne02; i02++) {
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for (int i01 = 0; i01 < ne01; i01++) {
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for (int i00 = 0; i00 < ne00; i00++) {
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const ggml_fp16_t * src0_ptr = (ggml_fp16_t *) ((char *) src0->data + i00*nb00 + i01*nb01 + i02*nb02 + i03*nb03);
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dst_ptr[id] = GGML_FP16_TO_FP32(*src0_ptr);
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id++;
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}
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}
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}
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}
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} else {
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GGML_ASSERT(false); // TODO: implement
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}
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} else {
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//printf("%s: this is not optimal - fix me\n", __func__);
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if (dst->type == GGML_TYPE_F32) {
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size_t id = 0;
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float * dst_ptr = (float *) dst->data;
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for (int i03 = 0; i03 < ne03; i03++) {
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for (int i02 = 0; i02 < ne02; i02++) {
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for (int i01 = 0; i01 < ne01; i01++) {
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for (int i00 = 0; i00 < ne00; i00++) {
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const ggml_fp16_t * src0_ptr = (ggml_fp16_t *) ((char *) src0->data + i00*nb00 + i01*nb01 + i02*nb02 + i03*nb03);
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dst_ptr[id] = GGML_FP16_TO_FP32(*src0_ptr);
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id++;
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}
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}
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}
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}
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} else if (dst->type == GGML_TYPE_F16) {
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size_t id = 0;
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ggml_fp16_t * dst_ptr = (ggml_fp16_t *) dst->data;
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for (int i03 = 0; i03 < ne03; i03++) {
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for (int i02 = 0; i02 < ne02; i02++) {
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for (int i01 = 0; i01 < ne01; i01++) {
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for (int i00 = 0; i00 < ne00; i00++) {
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const ggml_fp16_t * src0_ptr = (ggml_fp16_t *) ((char *) src0->data + i00*nb00 + i01*nb01 + i02*nb02 + i03*nb03);
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dst_ptr[id] = *src0_ptr;
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id++;
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}
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}
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}
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}
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} else {
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GGML_ASSERT(false); // TODO: implement
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}
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}
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return;
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}
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// dst counters
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int64_t i10 = 0;
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int64_t i11 = 0;
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@ -4937,6 +5053,105 @@ static void ggml_compute_forward_dup_f32(
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return;
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}
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if (src0->type == dst->type &&
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src0->ne[0] == dst->ne[0] &&
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src0->nb[0] == GGML_TYPE_SIZE[src0->type] && dst->nb[0] == GGML_TYPE_SIZE[dst->type]) {
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// copy by rows
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const size_t rs = ne00*nb00;
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for (int64_t i03 = 0; i03 < ne03; i03++) {
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for (int64_t i02 = 0; i02 < ne02; i02++) {
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for (int64_t i01 = 0; i01 < ne01; i01++) {
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memcpy(
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((char *) dst->data + i01*nb1 + i02*nb2 + i03*nb3),
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((char *) src0->data + i01*nb01 + i02*nb02 + i03*nb03),
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rs);
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}
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}
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}
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return;
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}
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if (ggml_is_contiguous(dst)) {
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// TODO: simplify
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if (src0->nb[0] == sizeof(float)) {
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if (dst->type == GGML_TYPE_F32) {
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size_t id = 0;
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const size_t rs = ne00*nb00;
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for (int i03 = 0; i03 < ne03; i03++) {
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for (int i02 = 0; i02 < ne02; i02++) {
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for (int i01 = 0; i01 < ne01; i01++) {
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const char * src0_ptr = (char *) src0->data + i01*nb01 + i02*nb02 + i03*nb03;
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char * dst_ptr = (char *) dst->data + id*rs;
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memcpy(dst_ptr, src0_ptr, rs);
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id++;
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}
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}
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}
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} else if (dst->type == GGML_TYPE_F16) {
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size_t id = 0;
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ggml_fp16_t * dst_ptr = (ggml_fp16_t *) dst->data;
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for (int i03 = 0; i03 < ne03; i03++) {
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for (int i02 = 0; i02 < ne02; i02++) {
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for (int i01 = 0; i01 < ne01; i01++) {
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for (int i00 = 0; i00 < ne00; i00++) {
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const float * src0_ptr = (float *) ((char *) src0->data + i00*nb00 + i01*nb01 + i02*nb02 + i03*nb03);
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dst_ptr[id] = GGML_FP32_TO_FP16(*src0_ptr);
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id++;
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}
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}
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}
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}
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} else {
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GGML_ASSERT(false); // TODO: implement
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}
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} else {
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//printf("%s: this is not optimal - fix me\n", __func__);
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if (dst->type == GGML_TYPE_F32) {
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size_t id = 0;
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float * dst_ptr = (float *) dst->data;
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for (int i03 = 0; i03 < ne03; i03++) {
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for (int i02 = 0; i02 < ne02; i02++) {
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for (int i01 = 0; i01 < ne01; i01++) {
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for (int i00 = 0; i00 < ne00; i00++) {
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const float * src0_ptr = (float *) ((char *) src0->data + i00*nb00 + i01*nb01 + i02*nb02 + i03*nb03);
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dst_ptr[id] = *src0_ptr;
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id++;
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}
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}
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}
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}
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} else if (dst->type == GGML_TYPE_F16) {
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size_t id = 0;
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ggml_fp16_t * dst_ptr = (ggml_fp16_t *) dst->data;
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for (int i03 = 0; i03 < ne03; i03++) {
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for (int i02 = 0; i02 < ne02; i02++) {
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for (int i01 = 0; i01 < ne01; i01++) {
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for (int i00 = 0; i00 < ne00; i00++) {
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const float * src0_ptr = (float *) ((char *) src0->data + i00*nb00 + i01*nb01 + i02*nb02 + i03*nb03);
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dst_ptr[id] = GGML_FP32_TO_FP16(*src0_ptr);
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id++;
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}
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}
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}
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}
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} else {
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GGML_ASSERT(false); // TODO: implement
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}
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}
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return;
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}
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// dst counters
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int64_t i10 = 0;
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int64_t i11 = 0;
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@ -5057,14 +5272,18 @@ static void ggml_compute_forward_add_f32(
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GGML_ASSERT(nb00 == sizeof(float));
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if (nb10 == sizeof(float)) {
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const int j0 = (n/nth)*ith;
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const int j1 = ith == nth - 1 ? n : (n/nth)*(ith + 1);
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for (int j = j0; j < j1; j++) {
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for (int j = ith; j < n; j += nth) {
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#ifdef GGML_USE_ACCELERATE
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vDSP_vadd(
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(float *) ((char *) src0->data + j*nb01), 1,
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(float *) ((char *) src1->data + j*nb11), 1,
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(float *) ((char *) dst->data + j*nb1), 1, nc);
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#else
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ggml_vec_add_f32(nc,
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(float *) ((char *) dst->data + j*nb1),
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(float *) ((char *) src0->data + j*nb01),
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(float *) ((char *) src1->data + j*nb11));
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#endif
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}
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} else {
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// src1 is not contiguous
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@ -6812,6 +7031,15 @@ static void ggml_compute_forward_cpy(
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ggml_compute_forward_dup(params, src0, dst);
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}
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// ggml_compute_forward_cont
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static void ggml_compute_forward_cont(
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const struct ggml_compute_params * params,
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const struct ggml_tensor * src0,
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struct ggml_tensor * dst) {
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ggml_compute_forward_dup(params, src0, dst);
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}
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// ggml_compute_forward_reshape
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static void ggml_compute_forward_reshape(
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@ -8642,6 +8870,10 @@ static void ggml_compute_forward(struct ggml_compute_params * params, struct ggm
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{
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ggml_compute_forward_cpy(params, tensor->src0, tensor);
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} break;
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case GGML_OP_CONT:
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{
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ggml_compute_forward_cont(params, tensor->src0, tensor);
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} break;
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case GGML_OP_RESHAPE:
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{
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ggml_compute_forward_reshape(params, tensor->src0, tensor);
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@ -8886,8 +9118,9 @@ static void ggml_compute_backward(struct ggml_context * ctx, struct ggml_tensor
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src1->grad =
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ggml_add_impl(ctx,
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src1->grad,
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// TODO: fix transpose, the node will break the graph connections
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ggml_mul_mat(ctx, ggml_transpose(ctx, src0), tensor->grad),
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ggml_mul_mat(ctx,
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ggml_cont(ctx, ggml_transpose(ctx, src0)),
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tensor->grad),
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inplace);
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}
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} break;
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@ -8899,6 +9132,10 @@ static void ggml_compute_backward(struct ggml_context * ctx, struct ggml_tensor
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{
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GGML_ASSERT(false); // TODO: not implemented
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} break;
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case GGML_OP_CONT:
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{
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GGML_ASSERT(false); // TODO: not implemented
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} break;
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case GGML_OP_RESHAPE:
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{
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GGML_ASSERT(false); // TODO: not implemented
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@ -9353,6 +9590,7 @@ void ggml_graph_compute(struct ggml_context * ctx, struct ggml_cgraph * cgraph)
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node->n_tasks = n_threads;
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} break;
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case GGML_OP_CPY:
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case GGML_OP_CONT:
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case GGML_OP_RESHAPE:
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case GGML_OP_VIEW:
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case GGML_OP_PERMUTE:
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6
ggml.h
6
ggml.h
@ -236,6 +236,7 @@ enum ggml_op {
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GGML_OP_SCALE,
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GGML_OP_CPY,
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GGML_OP_CONT,
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GGML_OP_RESHAPE,
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GGML_OP_VIEW,
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GGML_OP_PERMUTE,
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@ -525,6 +526,11 @@ struct ggml_tensor * ggml_cpy(
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struct ggml_tensor * a,
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struct ggml_tensor * b);
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// make contiguous
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struct ggml_tensor * ggml_cont(
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struct ggml_context * ctx,
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struct ggml_tensor * a);
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// return view(a), b specifies the new shape
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// TODO: when we start computing gradient, make a copy instead of view
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struct ggml_tensor * ggml_reshape(
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