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# include "ggml-backend-impl.h"
# include "ggml-alloc.h"
# include "ggml-impl.h"
# include <assert.h>
# include <limits.h>
# include <stdarg.h>
# include <stdio.h>
# include <stdlib.h>
# include <string.h>
# define MAX(a, b) ((a) > (b) ? (a) : (b))
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// backend buffer type
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const char * ggml_backend_buft_name ( ggml_backend_buffer_type_t buft ) {
return buft - > iface . get_name ( buft ) ;
}
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GGML_CALL ggml_backend_buffer_t ggml_backend_buft_alloc_buffer ( ggml_backend_buffer_type_t buft , size_t size ) {
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return buft - > iface . alloc_buffer ( buft , size ) ;
}
size_t ggml_backend_buft_get_alignment ( ggml_backend_buffer_type_t buft ) {
return buft - > iface . get_alignment ( buft ) ;
}
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GGML_CALL size_t ggml_backend_buft_get_alloc_size ( ggml_backend_buffer_type_t buft , struct ggml_tensor * tensor ) {
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// get_alloc_size is optional, defaults to ggml_nbytes
if ( buft - > iface . get_alloc_size ) {
return buft - > iface . get_alloc_size ( buft , tensor ) ;
}
return ggml_nbytes ( tensor ) ;
}
bool ggml_backend_buft_supports_backend ( ggml_backend_buffer_type_t buft , ggml_backend_t backend ) {
return buft - > iface . supports_backend ( buft , backend ) ;
}
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bool ggml_backend_buft_is_host ( ggml_backend_buffer_type_t buft ) {
if ( buft - > iface . is_host ) {
return buft - > iface . is_host ( buft ) ;
}
return false ;
}
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// backend buffer
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GGML_CALL ggml_backend_buffer_t ggml_backend_buffer_init (
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ggml_backend_buffer_type_t buft ,
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struct ggml_backend_buffer_i iface ,
ggml_backend_buffer_context_t context ,
size_t size ) {
ggml_backend_buffer_t buffer = malloc ( sizeof ( struct ggml_backend_buffer ) ) ;
GGML_ASSERT ( iface . get_base ! = NULL ) ;
( * buffer ) = ( struct ggml_backend_buffer ) {
/* .interface = */ iface ,
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/* .buft = */ buft ,
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/* .context = */ context ,
/* .size = */ size ,
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/* .usage = */ GGML_BACKEND_BUFFER_USAGE_ANY
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} ;
return buffer ;
}
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const char * ggml_backend_buffer_name ( ggml_backend_buffer_t buffer ) {
return buffer - > iface . get_name ( buffer ) ;
}
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void ggml_backend_buffer_free ( ggml_backend_buffer_t buffer ) {
if ( buffer = = NULL ) {
return ;
}
if ( buffer - > iface . free_buffer ! = NULL ) {
buffer - > iface . free_buffer ( buffer ) ;
}
free ( buffer ) ;
}
size_t ggml_backend_buffer_get_size ( ggml_backend_buffer_t buffer ) {
return buffer - > size ;
}
void * ggml_backend_buffer_get_base ( ggml_backend_buffer_t buffer ) {
void * base = buffer - > iface . get_base ( buffer ) ;
GGML_ASSERT ( base ! = NULL & & " backend buffer base cannot be NULL " ) ;
return base ;
}
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GGML_CALL void ggml_backend_buffer_init_tensor ( ggml_backend_buffer_t buffer , struct ggml_tensor * tensor ) {
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// init_tensor is optional
if ( buffer - > iface . init_tensor ) {
buffer - > iface . init_tensor ( buffer , tensor ) ;
}
}
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size_t ggml_backend_buffer_get_alignment ( ggml_backend_buffer_t buffer ) {
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return ggml_backend_buft_get_alignment ( ggml_backend_buffer_get_type ( buffer ) ) ;
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}
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size_t ggml_backend_buffer_get_alloc_size ( ggml_backend_buffer_t buffer , struct ggml_tensor * tensor ) {
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return ggml_backend_buft_get_alloc_size ( ggml_backend_buffer_get_type ( buffer ) , tensor ) ;
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}
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void ggml_backend_buffer_clear ( ggml_backend_buffer_t buffer , uint8_t value ) {
buffer - > iface . clear ( buffer , value ) ;
}
bool ggml_backend_buffer_is_host ( ggml_backend_buffer_t buffer ) {
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return ggml_backend_buft_is_host ( ggml_backend_buffer_get_type ( buffer ) ) ;
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}
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void ggml_backend_buffer_set_usage ( ggml_backend_buffer_t buffer , enum ggml_backend_buffer_usage usage ) {
buffer - > usage = usage ;
}
ggml_backend_buffer_type_t ggml_backend_buffer_get_type ( ggml_backend_buffer_t buffer ) {
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return buffer - > buft ;
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}
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void ggml_backend_buffer_reset ( ggml_backend_buffer_t buffer ) {
if ( buffer - > iface . reset ) {
buffer - > iface . reset ( buffer ) ;
}
}
bool ggml_backend_buffer_copy_tensor ( const struct ggml_tensor * src , struct ggml_tensor * dst ) {
ggml_backend_buffer_t dst_buf = dst - > view_src ? dst - > view_src - > buffer : dst - > buffer ;
if ( dst_buf - > iface . cpy_tensor ) {
return src - > buffer - > iface . cpy_tensor ( dst_buf , src , dst ) ;
}
return false ;
}
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// backend
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const char * ggml_backend_name ( ggml_backend_t backend ) {
if ( backend = = NULL ) {
return " NULL " ;
}
return backend - > iface . get_name ( backend ) ;
}
void ggml_backend_free ( ggml_backend_t backend ) {
if ( backend = = NULL ) {
return ;
}
backend - > iface . free ( backend ) ;
}
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ggml_backend_buffer_type_t ggml_backend_get_default_buffer_type ( ggml_backend_t backend ) {
return backend - > iface . get_default_buffer_type ( backend ) ;
}
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ggml_backend_buffer_t ggml_backend_alloc_buffer ( ggml_backend_t backend , size_t size ) {
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return ggml_backend_buft_alloc_buffer ( ggml_backend_get_default_buffer_type ( backend ) , size ) ;
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}
size_t ggml_backend_get_alignment ( ggml_backend_t backend ) {
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return ggml_backend_buft_get_alignment ( ggml_backend_get_default_buffer_type ( backend ) ) ;
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}
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void ggml_backend_tensor_set_async ( ggml_backend_t backend , struct ggml_tensor * tensor , const void * data , size_t offset , size_t size ) {
GGML_ASSERT ( tensor - > data ! = NULL & & " tensor not allocated " ) ;
GGML_ASSERT ( offset + size < = ggml_nbytes ( tensor ) & & " tensor write out of bounds " ) ;
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if ( backend - > iface . set_tensor_async = = NULL ) {
ggml_backend_tensor_set ( tensor , data , offset , size ) ;
} else {
backend - > iface . set_tensor_async ( backend , tensor , data , offset , size ) ;
}
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}
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void ggml_backend_tensor_get_async ( ggml_backend_t backend , const struct ggml_tensor * tensor , void * data , size_t offset , size_t size ) {
GGML_ASSERT ( tensor - > data ! = NULL & & " tensor not allocated " ) ;
GGML_ASSERT ( offset + size < = ggml_nbytes ( tensor ) & & " tensor read out of bounds " ) ;
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if ( backend - > iface . get_tensor_async = = NULL ) {
ggml_backend_tensor_get ( tensor , data , offset , size ) ;
} else {
backend - > iface . get_tensor_async ( backend , tensor , data , offset , size ) ;
}
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}
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GGML_CALL void ggml_backend_tensor_set ( struct ggml_tensor * tensor , const void * data , size_t offset , size_t size ) {
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ggml_backend_buffer_t buf = tensor - > view_src ? tensor - > view_src - > buffer : tensor - > buffer ;
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GGML_ASSERT ( tensor - > data ! = NULL & & " tensor not allocated " ) ;
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GGML_ASSERT ( buf ! = NULL & & " tensor buffer not set " ) ;
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GGML_ASSERT ( offset + size < = ggml_nbytes ( tensor ) & & " tensor write out of bounds " ) ;
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tensor - > buffer - > iface . set_tensor ( buf , tensor , data , offset , size ) ;
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}
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GGML_CALL void ggml_backend_tensor_get ( const struct ggml_tensor * tensor , void * data , size_t offset , size_t size ) {
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ggml_backend_buffer_t buf = tensor - > view_src ? tensor - > view_src - > buffer : tensor - > buffer ;
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GGML_ASSERT ( tensor - > data ! = NULL & & " tensor not allocated " ) ;
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GGML_ASSERT ( tensor - > buffer ! = NULL & & " tensor buffer not set " ) ;
GGML_ASSERT ( offset + size < = ggml_nbytes ( tensor ) & & " tensor read out of bounds " ) ;
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tensor - > buffer - > iface . get_tensor ( buf , tensor , data , offset , size ) ;
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}
void ggml_backend_synchronize ( ggml_backend_t backend ) {
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if ( backend - > iface . synchronize = = NULL ) {
return ;
}
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backend - > iface . synchronize ( backend ) ;
}
ggml_backend_graph_plan_t ggml_backend_graph_plan_create ( ggml_backend_t backend , struct ggml_cgraph * cgraph ) {
return backend - > iface . graph_plan_create ( backend , cgraph ) ;
}
void ggml_backend_graph_plan_free ( ggml_backend_t backend , ggml_backend_graph_plan_t plan ) {
backend - > iface . graph_plan_free ( backend , plan ) ;
}
void ggml_backend_graph_plan_compute ( ggml_backend_t backend , ggml_backend_graph_plan_t plan ) {
backend - > iface . graph_plan_compute ( backend , plan ) ;
}
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bool ggml_backend_graph_compute ( ggml_backend_t backend , struct ggml_cgraph * cgraph ) {
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return backend - > iface . graph_compute ( backend , cgraph ) ;
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}
bool ggml_backend_supports_op ( ggml_backend_t backend , const struct ggml_tensor * op ) {
return backend - > iface . supports_op ( backend , op ) ;
}
// backend copy
static bool ggml_are_same_layout ( const struct ggml_tensor * a , const struct ggml_tensor * b ) {
if ( a - > type ! = b - > type ) {
return false ;
}
for ( int i = 0 ; i < GGML_MAX_DIMS ; i + + ) {
if ( a - > ne [ i ] ! = b - > ne [ i ] ) {
return false ;
}
if ( a - > nb [ i ] ! = b - > nb [ i ] ) {
return false ;
}
}
return true ;
}
void ggml_backend_tensor_copy ( struct ggml_tensor * src , struct ggml_tensor * dst ) {
GGML_ASSERT ( ggml_are_same_layout ( src , dst ) & & " cannot copy tensors with different layouts " ) ;
if ( src = = dst ) {
return ;
}
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if ( ggml_backend_buffer_is_host ( src - > buffer ) ) {
ggml_backend_tensor_set ( dst , src - > data , 0 , ggml_nbytes ( src ) ) ;
} else if ( ggml_backend_buffer_is_host ( dst - > buffer ) ) {
ggml_backend_tensor_get ( src , dst - > data , 0 , ggml_nbytes ( src ) ) ;
} else if ( ! ggml_backend_buffer_copy_tensor ( src , dst ) ) {
# ifndef NDEBUG
fprintf ( stderr , " %s: warning: slow copy from %s to %s \n " , __func__ , ggml_backend_buffer_name ( src - > buffer ) , ggml_backend_buffer_name ( dst - > buffer ) ) ;
# endif
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size_t nbytes = ggml_nbytes ( src ) ;
void * data = malloc ( nbytes ) ;
ggml_backend_tensor_get ( src , data , 0 , nbytes ) ;
ggml_backend_tensor_set ( dst , data , 0 , nbytes ) ;
free ( data ) ;
}
}
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void ggml_backend_tensor_copy_async ( ggml_backend_t backend , struct ggml_tensor * src , struct ggml_tensor * dst ) {
GGML_ASSERT ( ggml_are_same_layout ( src , dst ) & & " cannot copy tensors with different layouts " ) ;
if ( src = = dst ) {
return ;
}
if ( ggml_backend_buft_supports_backend ( src - > buffer - > buft , backend ) & & ggml_backend_buft_supports_backend ( dst - > buffer - > buft , backend ) ) {
if ( backend - > iface . cpy_tensor_async ! = NULL ) {
if ( backend - > iface . cpy_tensor_async ( backend , src , dst ) ) {
return ;
}
}
}
size_t nbytes = ggml_nbytes ( src ) ;
if ( ggml_backend_buffer_is_host ( src - > buffer ) ) {
ggml_backend_tensor_set_async ( backend , dst , src - > data , 0 , nbytes ) ;
}
else {
ggml_backend_tensor_copy ( src , dst ) ;
}
}
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// backend registry
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# define GGML_MAX_BACKENDS_REG 16
struct ggml_backend_reg {
char name [ 128 ] ;
ggml_backend_init_fn init_fn ;
ggml_backend_buffer_type_t default_buffer_type ;
void * user_data ;
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} ;
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static struct ggml_backend_reg ggml_backend_registry [ GGML_MAX_BACKENDS_REG ] ;
static size_t ggml_backend_registry_count = 0 ;
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GGML_CALL static ggml_backend_t ggml_backend_reg_cpu_init ( const char * params , void * user_data ) ;
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GGML_CALL static void ggml_backend_registry_init ( void ) {
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static bool initialized = false ;
if ( initialized ) {
return ;
}
initialized = true ;
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ggml_backend_register ( " CPU " , ggml_backend_reg_cpu_init , ggml_backend_cpu_buffer_type ( ) , NULL ) ;
// add forward decls here to avoid including the backend headers
# ifdef GGML_USE_CUBLAS
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extern GGML_CALL void ggml_backend_cuda_reg_devices ( void ) ;
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ggml_backend_cuda_reg_devices ( ) ;
# endif
# ifdef GGML_USE_METAL
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extern GGML_CALL ggml_backend_t ggml_backend_reg_metal_init ( const char * params , void * user_data ) ;
extern GGML_CALL ggml_backend_buffer_type_t ggml_backend_metal_buffer_type ( void ) ;
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ggml_backend_register ( " Metal " , ggml_backend_reg_metal_init , ggml_backend_metal_buffer_type ( ) , NULL ) ;
# endif
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}
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GGML_CALL void ggml_backend_register ( const char * name , ggml_backend_init_fn init_fn , ggml_backend_buffer_type_t default_buffer_type , void * user_data ) {
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GGML_ASSERT ( ggml_backend_registry_count < GGML_MAX_BACKENDS_REG ) ;
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size_t id = ggml_backend_registry_count ;
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ggml_backend_registry [ id ] = ( struct ggml_backend_reg ) {
/* .name = */ { 0 } ,
/* .fn = */ init_fn ,
/* .default_buffer_type = */ default_buffer_type ,
/* .user_data = */ user_data ,
} ;
snprintf ( ggml_backend_registry [ id ] . name , sizeof ( ggml_backend_registry [ id ] . name ) , " %s " , name ) ;
# ifndef NDEBUG
fprintf ( stderr , " %s: registered backend %s \n " , __func__ , name ) ;
# endif
ggml_backend_registry_count + + ;
}
size_t ggml_backend_reg_get_count ( void ) {
ggml_backend_registry_init ( ) ;
return ggml_backend_registry_count ;
}
size_t ggml_backend_reg_find_by_name ( const char * name ) {
ggml_backend_registry_init ( ) ;
for ( size_t i = 0 ; i < ggml_backend_registry_count ; i + + ) {
// TODO: case insensitive in a portable way
if ( strcmp ( ggml_backend_registry [ i ] . name , name ) = = 0 ) {
return i ;
}
}
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// not found
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return SIZE_MAX ;
}
// init from backend:params string
ggml_backend_t ggml_backend_reg_init_backend_from_str ( const char * backend_str ) {
ggml_backend_registry_init ( ) ;
const char * params = strchr ( backend_str , ' : ' ) ;
char backend_name [ 128 ] ;
if ( params = = NULL ) {
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snprintf ( backend_name , sizeof ( backend_name ) , " %s " , backend_str ) ;
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params = " " ;
} else {
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snprintf ( backend_name , sizeof ( backend_name ) , " %.*s " , ( int ) ( params - backend_str ) , backend_str ) ;
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params + + ;
}
size_t backend_i = ggml_backend_reg_find_by_name ( backend_name ) ;
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if ( backend_i = = SIZE_MAX ) {
fprintf ( stderr , " %s: backend %s not found \n " , __func__ , backend_name ) ;
return NULL ;
}
return ggml_backend_reg_init_backend ( backend_i , params ) ;
}
const char * ggml_backend_reg_get_name ( size_t i ) {
ggml_backend_registry_init ( ) ;
GGML_ASSERT ( i < ggml_backend_registry_count ) ;
return ggml_backend_registry [ i ] . name ;
}
ggml_backend_t ggml_backend_reg_init_backend ( size_t i , const char * params ) {
ggml_backend_registry_init ( ) ;
GGML_ASSERT ( i < ggml_backend_registry_count ) ;
return ggml_backend_registry [ i ] . init_fn ( params , ggml_backend_registry [ i ] . user_data ) ;
}
ggml_backend_buffer_type_t ggml_backend_reg_get_default_buffer_type ( size_t i ) {
ggml_backend_registry_init ( ) ;
GGML_ASSERT ( i < ggml_backend_registry_count ) ;
return ggml_backend_registry [ i ] . default_buffer_type ;
}
ggml_backend_buffer_t ggml_backend_reg_alloc_buffer ( size_t i , size_t size ) {
ggml_backend_registry_init ( ) ;
GGML_ASSERT ( i < ggml_backend_registry_count ) ;
return ggml_backend_buft_alloc_buffer ( ggml_backend_registry [ i ] . default_buffer_type , size ) ;
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}
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// backend CPU
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GGML_CALL static const char * ggml_backend_cpu_buffer_name ( ggml_backend_buffer_t buffer ) {
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return " CPU " ;
GGML_UNUSED ( buffer ) ;
}
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GGML_CALL static void * ggml_backend_cpu_buffer_get_base ( ggml_backend_buffer_t buffer ) {
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return ( void * ) buffer - > context ;
}
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GGML_CALL static void ggml_backend_cpu_buffer_free_buffer ( ggml_backend_buffer_t buffer ) {
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free ( buffer - > context ) ;
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}
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GGML_CALL static void ggml_backend_cpu_buffer_set_tensor ( ggml_backend_buffer_t buffer , struct ggml_tensor * tensor , const void * data , size_t offset , size_t size ) {
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memcpy ( ( char * ) tensor - > data + offset , data , size ) ;
GGML_UNUSED ( buffer ) ;
}
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GGML_CALL static void ggml_backend_cpu_buffer_get_tensor ( ggml_backend_buffer_t buffer , const struct ggml_tensor * tensor , void * data , size_t offset , size_t size ) {
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memcpy ( data , ( const char * ) tensor - > data + offset , size ) ;
GGML_UNUSED ( buffer ) ;
}
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GGML_CALL static bool ggml_backend_cpu_buffer_cpy_tensor ( ggml_backend_buffer_t buffer , const struct ggml_tensor * src , struct ggml_tensor * dst ) {
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if ( ggml_backend_buffer_is_host ( src - > buffer ) ) {
memcpy ( dst - > data , src - > data , ggml_nbytes ( src ) ) ;
return true ;
}
return false ;
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GGML_UNUSED ( buffer ) ;
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}
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GGML_CALL static void ggml_backend_cpu_buffer_clear ( ggml_backend_buffer_t buffer , uint8_t value ) {
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memset ( buffer - > context , value , buffer - > size ) ;
}
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static struct ggml_backend_buffer_i cpu_backend_buffer_i = {
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/* .get_name = */ ggml_backend_cpu_buffer_name ,
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/* .free_buffer = */ ggml_backend_cpu_buffer_free_buffer ,
/* .get_base = */ ggml_backend_cpu_buffer_get_base ,
/* .init_tensor = */ NULL , // no initialization required
/* .set_tensor = */ ggml_backend_cpu_buffer_set_tensor ,
/* .get_tensor = */ ggml_backend_cpu_buffer_get_tensor ,
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/* .cpy_tensor = */ ggml_backend_cpu_buffer_cpy_tensor ,
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/* .clear = */ ggml_backend_cpu_buffer_clear ,
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/* .reset = */ NULL ,
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} ;
// for buffers from ptr, free is not called
static struct ggml_backend_buffer_i cpu_backend_buffer_i_from_ptr = {
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/* .get_name = */ ggml_backend_cpu_buffer_name ,
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/* .free_buffer = */ NULL , // ptr is not owned by the buffer, so it does not need to be freed
/* .get_base = */ ggml_backend_cpu_buffer_get_base ,
/* .init_tensor = */ NULL , // no initialization required
/* .set_tensor = */ ggml_backend_cpu_buffer_set_tensor ,
/* .get_tensor = */ ggml_backend_cpu_buffer_get_tensor ,
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/* .cpy_tensor = */ ggml_backend_cpu_buffer_cpy_tensor ,
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/* .clear = */ ggml_backend_cpu_buffer_clear ,
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/* .reset = */ NULL ,
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} ;
static const size_t TENSOR_ALIGNMENT = 64 ; // should be enough for AVX 512
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GGML_CALL static const char * ggml_backend_cpu_buffer_type_get_name ( ggml_backend_buffer_type_t buft ) {
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return " CPU " ;
GGML_UNUSED ( buft ) ;
}
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GGML_CALL static ggml_backend_buffer_t ggml_backend_cpu_buffer_type_alloc_buffer ( ggml_backend_buffer_type_t buft , size_t size ) {
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size + = TENSOR_ALIGNMENT ; // malloc may return an address that is not aligned
void * data = malloc ( size ) ; // TODO: maybe use GGML_ALIGNED_MALLOC?
GGML_ASSERT ( data ! = NULL & & " failed to allocate buffer " ) ;
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return ggml_backend_buffer_init ( buft , cpu_backend_buffer_i , data , size ) ;
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}
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GGML_CALL static size_t ggml_backend_cpu_buffer_type_get_alignment ( ggml_backend_buffer_type_t buft ) {
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return TENSOR_ALIGNMENT ;
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GGML_UNUSED ( buft ) ;
}
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GGML_CALL static bool ggml_backend_cpu_buffer_type_supports_backend ( ggml_backend_buffer_type_t buft , ggml_backend_t backend ) {
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return ggml_backend_is_cpu ( backend ) ;
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GGML_UNUSED ( buft ) ;
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}
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GGML_CALL static bool ggml_backend_cpu_buffer_type_is_host ( ggml_backend_buffer_type_t buft ) {
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return true ;
GGML_UNUSED ( buft ) ;
}
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GGML_CALL ggml_backend_buffer_type_t ggml_backend_cpu_buffer_type ( void ) {
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static struct ggml_backend_buffer_type ggml_backend_cpu_buffer_type = {
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/* .iface = */ {
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/* .get_name = */ ggml_backend_cpu_buffer_type_get_name ,
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/* .alloc_buffer = */ ggml_backend_cpu_buffer_type_alloc_buffer ,
/* .get_alignment = */ ggml_backend_cpu_buffer_type_get_alignment ,
/* .get_alloc_size = */ NULL , // defaults to ggml_nbytes
/* .supports_backend = */ ggml_backend_cpu_buffer_type_supports_backend ,
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/* .is_host = */ ggml_backend_cpu_buffer_type_is_host ,
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} ,
/* .context = */ NULL ,
} ;
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return & ggml_backend_cpu_buffer_type ;
}
# ifdef GGML_USE_CPU_HBM
// buffer type HBM
# include <hbwmalloc.h>
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GGML_CALL static const char * ggml_backend_cpu_hbm_buffer_type_get_name ( ggml_backend_buffer_type_t buft ) {
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return " CPU_HBM " ;
GGML_UNUSED ( buft ) ;
}
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GGML_CALL static const char * ggml_backend_cpu_hbm_buffer_get_name ( ggml_backend_buffer_t buf ) {
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return " CPU_HBM " ;
GGML_UNUSED ( buf ) ;
}
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GGML_CALL static void ggml_backend_cpu_hbm_buffer_free_buffer ( ggml_backend_buffer_t buffer ) {
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hbw_free ( buffer - > context ) ;
}
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GGML_CALL static ggml_backend_buffer_t ggml_backend_cpu_hbm_buffer_type_alloc_buffer ( ggml_backend_buffer_type_t buft , size_t size ) {
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//void * ptr = hbw_malloc(size);
void * ptr ;
int result = hbw_posix_memalign ( & ptr , ggml_backend_cpu_buffer_type_get_alignment ( buft ) , size ) ;
if ( result ! = 0 ) {
fprintf ( stderr , " failed to allocate HBM buffer of size %zu \n " , size ) ;
return NULL ;
}
ggml_backend_buffer_t buffer = ggml_backend_cpu_buffer_from_ptr ( ptr , size ) ;
buffer - > buft = buft ;
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buffer - > iface . get_name = ggml_backend_cpu_hbm_buffer_get_name ;
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buffer - > iface . free_buffer = ggml_backend_cpu_hbm_buffer_free_buffer ;
return buffer ;
}
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ggml_backend_buffer_type_t ggml_backend_cpu_hbm_buffer_type ( void ) {
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static struct ggml_backend_buffer_type ggml_backend_cpu_buffer_type_hbm = {
/* .iface = */ {
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/* .get_name = */ ggml_backend_cpu_hbm_buffer_type_get_name ,
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/* .alloc_buffer = */ ggml_backend_cpu_hbm_buffer_type_alloc_buffer ,
/* .get_alignment = */ ggml_backend_cpu_buffer_type_get_alignment ,
/* .get_alloc_size = */ NULL , // defaults to ggml_nbytes
/* .supports_backend = */ ggml_backend_cpu_buffer_type_supports_backend ,
/* .is_host = */ ggml_backend_cpu_buffer_type_is_host ,
} ,
/* .context = */ NULL ,
} ;
return & ggml_backend_cpu_buffer_type_hbm ;
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}
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# endif
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struct ggml_backend_cpu_context {
int n_threads ;
void * work_data ;
size_t work_size ;
} ;
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GGML_CALL static const char * ggml_backend_cpu_name ( ggml_backend_t backend ) {
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return " CPU " ;
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GGML_UNUSED ( backend ) ;
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}
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GGML_CALL static void ggml_backend_cpu_free ( ggml_backend_t backend ) {
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struct ggml_backend_cpu_context * cpu_ctx = ( struct ggml_backend_cpu_context * ) backend - > context ;
free ( cpu_ctx - > work_data ) ;
free ( cpu_ctx ) ;
free ( backend ) ;
}
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GGML_CALL static ggml_backend_buffer_type_t ggml_backend_cpu_get_default_buffer_type ( ggml_backend_t backend ) {
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return ggml_backend_cpu_buffer_type ( ) ;
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GGML_UNUSED ( backend ) ;
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}
struct ggml_backend_plan_cpu {
struct ggml_cplan cplan ;
struct ggml_cgraph cgraph ;
} ;
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GGML_CALL static ggml_backend_graph_plan_t ggml_backend_cpu_graph_plan_create ( ggml_backend_t backend , const struct ggml_cgraph * cgraph ) {
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struct ggml_backend_cpu_context * cpu_ctx = ( struct ggml_backend_cpu_context * ) backend - > context ;
struct ggml_backend_plan_cpu * cpu_plan = malloc ( sizeof ( struct ggml_backend_plan_cpu ) ) ;
cpu_plan - > cplan = ggml_graph_plan ( cgraph , cpu_ctx - > n_threads ) ;
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cpu_plan - > cgraph = * cgraph ; // FIXME: deep copy
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if ( cpu_plan - > cplan . work_size > 0 ) {
cpu_plan - > cplan . work_data = malloc ( cpu_plan - > cplan . work_size ) ;
}
return cpu_plan ;
}
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GGML_CALL static void ggml_backend_cpu_graph_plan_free ( ggml_backend_t backend , ggml_backend_graph_plan_t plan ) {
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struct ggml_backend_plan_cpu * cpu_plan = ( struct ggml_backend_plan_cpu * ) plan ;
free ( cpu_plan - > cplan . work_data ) ;
free ( cpu_plan ) ;
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GGML_UNUSED ( backend ) ;
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}
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GGML_CALL static void ggml_backend_cpu_graph_plan_compute ( ggml_backend_t backend , ggml_backend_graph_plan_t plan ) {
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struct ggml_backend_plan_cpu * cpu_plan = ( struct ggml_backend_plan_cpu * ) plan ;
ggml_graph_compute ( & cpu_plan - > cgraph , & cpu_plan - > cplan ) ;
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GGML_UNUSED ( backend ) ;
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}
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GGML_CALL static bool ggml_backend_cpu_graph_compute ( ggml_backend_t backend , struct ggml_cgraph * cgraph ) {
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struct ggml_backend_cpu_context * cpu_ctx = ( struct ggml_backend_cpu_context * ) backend - > context ;
struct ggml_cplan cplan = ggml_graph_plan ( cgraph , cpu_ctx - > n_threads ) ;
if ( cpu_ctx - > work_size < cplan . work_size ) {
// TODO: may be faster to free and use malloc to avoid the copy
cpu_ctx - > work_data = realloc ( cpu_ctx - > work_data , cplan . work_size ) ;
cpu_ctx - > work_size = cplan . work_size ;
}
cplan . work_data = cpu_ctx - > work_data ;
ggml_graph_compute ( cgraph , & cplan ) ;
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return true ;
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}
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GGML_CALL static bool ggml_backend_cpu_supports_op ( ggml_backend_t backend , const struct ggml_tensor * op ) {
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switch ( op - > op ) {
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case GGML_OP_CPY :
return op - > type ! = GGML_TYPE_IQ2_XXS & & op - > type ! = GGML_TYPE_IQ2_XS ; // missing type_traits.from_float
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case GGML_OP_MUL_MAT :
return op - > src [ 1 ] - > type = = GGML_TYPE_F32 | | op - > src [ 1 ] - > type = = ggml_internal_get_type_traits ( op - > src [ 0 ] - > type ) . vec_dot_type ;
default :
return true ;
}
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GGML_UNUSED ( backend ) ;
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}
static struct ggml_backend_i cpu_backend_i = {
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/* .get_name = */ ggml_backend_cpu_name ,
/* .free = */ ggml_backend_cpu_free ,
/* .get_default_buffer_type = */ ggml_backend_cpu_get_default_buffer_type ,
/* .set_tensor_async = */ NULL ,
/* .get_tensor_async = */ NULL ,
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/* .cpy_tensor_async = */ NULL ,
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/* .synchronize = */ NULL ,
/* .graph_plan_create = */ ggml_backend_cpu_graph_plan_create ,
/* .graph_plan_free = */ ggml_backend_cpu_graph_plan_free ,
/* .graph_plan_compute = */ ggml_backend_cpu_graph_plan_compute ,
/* .graph_compute = */ ggml_backend_cpu_graph_compute ,
/* .supports_op = */ ggml_backend_cpu_supports_op ,
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} ;
ggml_backend_t ggml_backend_cpu_init ( void ) {
struct ggml_backend_cpu_context * ctx = malloc ( sizeof ( struct ggml_backend_cpu_context ) ) ;
ctx - > n_threads = GGML_DEFAULT_N_THREADS ;
ctx - > work_data = NULL ;
ctx - > work_size = 0 ;
ggml_backend_t cpu_backend = malloc ( sizeof ( struct ggml_backend ) ) ;
* cpu_backend = ( struct ggml_backend ) {
/* .interface = */ cpu_backend_i ,
/* .context = */ ctx
} ;
return cpu_backend ;
}
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GGML_CALL bool ggml_backend_is_cpu ( ggml_backend_t backend ) {
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return backend & & backend - > iface . get_name = = ggml_backend_cpu_name ;
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}
void ggml_backend_cpu_set_n_threads ( ggml_backend_t backend_cpu , int n_threads ) {
GGML_ASSERT ( ggml_backend_is_cpu ( backend_cpu ) ) ;
struct ggml_backend_cpu_context * ctx = ( struct ggml_backend_cpu_context * ) backend_cpu - > context ;
ctx - > n_threads = n_threads ;
}
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GGML_CALL ggml_backend_buffer_t ggml_backend_cpu_buffer_from_ptr ( void * ptr , size_t size ) {
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return ggml_backend_buffer_init ( ggml_backend_cpu_buffer_type ( ) , cpu_backend_buffer_i_from_ptr , ptr , size ) ;
}
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GGML_CALL static ggml_backend_t ggml_backend_reg_cpu_init ( const char * params , void * user_data ) {
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return ggml_backend_cpu_init ( ) ;
GGML_UNUSED ( params ) ;
GGML_UNUSED ( user_data ) ;
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}
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// scheduler
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# define GGML_MAX_BACKENDS 16
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# define GGML_MAX_SPLITS 256
# define GGML_MAX_SPLIT_INPUTS 16
struct ggml_backend_sched_split {
ggml_tallocr_t tallocr ;
int i_start ;
int i_end ;
struct ggml_tensor * inputs [ GGML_MAX_SPLIT_INPUTS ] ;
int n_inputs ;
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// graph view of this split
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struct ggml_cgraph graph ;
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} ;
struct ggml_backend_sched {
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bool is_reset ; // true if the scheduler has been reset since the last graph split
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int n_backends ;
ggml_backend_t backends [ GGML_MAX_BACKENDS ] ;
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ggml_backend_buffer_type_t bufts [ GGML_MAX_BACKENDS ] ;
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ggml_tallocr_t tallocs [ GGML_MAX_BACKENDS ] ;
ggml_gallocr_t galloc ;
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// hash keys of the nodes in the graph
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struct ggml_hash_set hash_set ;
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// hash values (arrays of [hash_set.size])
ggml_tallocr_t * node_talloc ; // tallocr assigned to each node (indirectly this is the backend)
struct ggml_tensor * ( * node_copies ) [ GGML_MAX_BACKENDS ] ; // copies of each node for each destination backend
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// copy of the graph with modified inputs
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struct ggml_cgraph * graph ;
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struct ggml_backend_sched_split splits [ GGML_MAX_SPLITS ] ;
int n_splits ;
struct ggml_context * ctx ;
// align context_buffer to GGML_MEM_ALIGN
# ifdef _MSC_VER
__declspec ( align ( GGML_MEM_ALIGN ) )
# else
__attribute__ ( ( aligned ( GGML_MEM_ALIGN ) ) )
# endif
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char context_buffer [ GGML_MAX_SPLITS * GGML_MAX_SPLIT_INPUTS * sizeof ( struct ggml_tensor ) + sizeof ( struct ggml_cgraph ) ] ;
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ggml_backend_sched_eval_callback callback_eval ;
void * callback_eval_user_data ;
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} ;
# define hash_id(node) ggml_hash_find_or_insert(sched->hash_set, node)
# define node_allocr(node) sched->node_talloc[hash_id(node)]
static bool ggml_is_view_op ( enum ggml_op op ) {
return op = = GGML_OP_VIEW | | op = = GGML_OP_RESHAPE | | op = = GGML_OP_PERMUTE | | op = = GGML_OP_TRANSPOSE ;
}
// returns the priority of the backend, lower is better
static int sched_backend_prio ( ggml_backend_sched_t sched , ggml_backend_t backend ) {
for ( int i = 0 ; i < sched - > n_backends ; i + + ) {
if ( sched - > backends [ i ] = = backend ) {
return i ;
}
}
return INT_MAX ;
}
static int sched_allocr_prio ( ggml_backend_sched_t sched , ggml_tallocr_t allocr ) {
for ( int i = 0 ; i < sched - > n_backends ; i + + ) {
if ( sched - > tallocs [ i ] = = allocr ) {
return i ;
}
}
return INT_MAX ;
}
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static ggml_tallocr_t sched_allocr_from_buffer ( ggml_backend_sched_t sched , ggml_backend_buffer_t buffer ) {
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if ( buffer = = NULL ) {
return NULL ;
}
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// check if this is already allocate in a allocr buffer (from user manual allocations)
for ( int i = 0 ; i < sched - > n_backends ; i + + ) {
if ( ggml_tallocr_get_buffer ( sched - > tallocs [ i ] ) = = buffer ) {
return sched - > tallocs [ i ] ;
}
}
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// find highest prio backend that supports the buffer type
for ( int i = 0 ; i < sched - > n_backends ; i + + ) {
if ( ggml_backend_buft_supports_backend ( buffer - > buft , sched - > backends [ i ] ) ) {
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return sched - > tallocs [ i ] ;
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}
}
GGML_ASSERT ( false & & " tensor buffer type not supported by any backend " ) ;
}
static ggml_backend_t get_allocr_backend ( ggml_backend_sched_t sched , ggml_tallocr_t allocr ) {
if ( allocr = = NULL ) {
return NULL ;
}
for ( int i = 0 ; i < sched - > n_backends ; i + + ) {
if ( sched - > tallocs [ i ] = = allocr ) {
return sched - > backends [ i ] ;
}
}
GGML_UNREACHABLE ( ) ;
}
#if 0
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static char causes [ GGML_DEFAULT_GRAPH_SIZE * 16 + GGML_MAX_SPLITS * GGML_MAX_SPLIT_INPUTS ] [ 128 ] ; // debug only
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# define SET_CAUSE(node, ...) sprintf(causes[hash_id(node)], __VA_ARGS__)
# define GET_CAUSE(node) causes[hash_id(node)]
# else
# define SET_CAUSE(node, ...)
# define GET_CAUSE(node) ""
# endif
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// returns the backend that should be used for the node based on the current locations
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static ggml_tallocr_t sched_allocr_from_cur ( ggml_backend_sched_t sched , struct ggml_tensor * node ) {
// assign pre-allocated nodes to their backend
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// dst
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ggml_tallocr_t cur_allocr = sched_allocr_from_buffer ( sched , node - > buffer ) ;
if ( cur_allocr ! = NULL ) {
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SET_CAUSE ( node , " 1.dst " ) ;
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return cur_allocr ;
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}
// view_src
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if ( node - > view_src ! = NULL ) {
cur_allocr = sched_allocr_from_buffer ( sched , node - > view_src - > buffer ) ;
if ( cur_allocr ! = NULL ) {
SET_CAUSE ( node , " 1.vsrc " ) ;
return cur_allocr ;
}
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}
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// assign nodes that use weights to the backend of the weights
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for ( int i = 0 ; i < GGML_MAX_SRC ; i + + ) {
const struct ggml_tensor * src = node - > src [ i ] ;
if ( src = = NULL ) {
break ;
}
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if ( src - > buffer ! = NULL & & src - > buffer - > usage = = GGML_BACKEND_BUFFER_USAGE_WEIGHTS ) {
ggml_tallocr_t src_allocr = sched_allocr_from_buffer ( sched , src - > buffer ) ;
// operations with weights are always run on the same backend as the weights
SET_CAUSE ( node , " 1.wgt%d " , i ) ;
return src_allocr ;
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}
}
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return NULL ;
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}
static char * fmt_size ( size_t size ) {
static char buffer [ 128 ] ;
if ( size > = 1024 * 1024 ) {
sprintf ( buffer , " %zuM " , size / 1024 / 1024 ) ;
} else {
sprintf ( buffer , " %zuK " , size / 1024 ) ;
}
return buffer ;
}
static void sched_print_assignments ( ggml_backend_sched_t sched , struct ggml_cgraph * graph ) {
int cur_split = 0 ;
for ( int i = 0 ; i < graph - > n_nodes ; i + + ) {
if ( cur_split < sched - > n_splits & & i = = sched - > splits [ cur_split ] . i_start ) {
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ggml_backend_t split_backend = get_allocr_backend ( sched , sched - > splits [ cur_split ] . tallocr ) ;
fprintf ( stderr , " \n ## SPLIT #%d: %s # %d inputs: " , cur_split , ggml_backend_name ( split_backend ) ,
sched - > splits [ cur_split ] . n_inputs ) ;
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for ( int j = 0 ; j < sched - > splits [ cur_split ] . n_inputs ; j + + ) {
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fprintf ( stderr , " [%s (%5.5s)] " , sched - > splits [ cur_split ] . inputs [ j ] - > name ,
fmt_size ( ggml_nbytes ( sched - > splits [ cur_split ] . inputs [ j ] ) ) ) ;
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}
fprintf ( stderr , " \n " ) ;
cur_split + + ;
}
struct ggml_tensor * node = graph - > nodes [ i ] ;
if ( ggml_is_view_op ( node - > op ) ) {
continue ;
}
ggml_tallocr_t node_allocr = node_allocr ( node ) ;
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ggml_backend_t node_backend = node_allocr ? get_allocr_backend ( sched , node_allocr ) : NULL ; // FIXME:
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fprintf ( stderr , " node #%3d (%10.10s): %20.20s (%5.5s) [%5.5s %8.8s]: " , i , ggml_op_name ( node - > op ) , node - > name ,
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fmt_size ( ggml_nbytes ( node ) ) , node_allocr ? ggml_backend_name ( node_backend ) : " NULL " , GET_CAUSE ( node ) ) ;
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for ( int j = 0 ; j < GGML_MAX_SRC ; j + + ) {
struct ggml_tensor * src = node - > src [ j ] ;
if ( src = = NULL ) {
break ;
}
ggml_tallocr_t src_allocr = node_allocr ( src ) ;
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ggml_backend_t src_backend = src_allocr ? get_allocr_backend ( sched , src_allocr ) : NULL ;
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fprintf ( stderr , " %20.20s (%5.5s) [%5.5s %8.8s] " , src - > name ,
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fmt_size ( ggml_nbytes ( src ) ) , src_backend ? ggml_backend_name ( src_backend ) : " NULL " , GET_CAUSE ( src ) ) ;
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}
fprintf ( stderr , " \n " ) ;
}
}
// creates a copy of the tensor with the same memory layout
static struct ggml_tensor * ggml_dup_tensor_layout ( struct ggml_context * ctx , const struct ggml_tensor * tensor ) {
struct ggml_tensor * dup = ggml_dup_tensor ( ctx , tensor ) ;
for ( int i = 0 ; i < GGML_MAX_DIMS ; i + + ) {
dup - > nb [ i ] = tensor - > nb [ i ] ;
}
return dup ;
}
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//#define DEBUG_PASS1
//#define DEBUG_PASS2
//#define DEBUG_PASS3
//#define DEBUG_PASS4
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// assigns backends to ops and splits the graph into subgraphs that can be computed on the same backend
static void sched_split_graph ( ggml_backend_sched_t sched , struct ggml_cgraph * graph ) {
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// reset splits
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sched - > n_splits = 0 ;
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sched - > is_reset = false ;
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struct ggml_init_params params = {
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/* .mem_size = */ sizeof ( sched - > context_buffer ) ,
/* .mem_buffer = */ sched - > context_buffer ,
/* .no_alloc = */ true
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} ;
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ggml_free ( sched - > ctx ) ;
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sched - > ctx = ggml_init ( params ) ;
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if ( sched - > ctx = = NULL ) {
fprintf ( stderr , " %s: failed to initialize context \n " , __func__ ) ;
GGML_ASSERT ( false ) ;
}
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// pass 1: assign backends to ops with pre-allocated inputs
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for ( int i = 0 ; i < graph - > n_leafs ; i + + ) {
struct ggml_tensor * leaf = graph - > leafs [ i ] ;
if ( node_allocr ( leaf ) ! = NULL ) {
// do not overwrite user assignments
continue ;
}
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node_allocr ( leaf ) = sched_allocr_from_cur ( sched , leaf ) ;
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}
for ( int i = 0 ; i < graph - > n_nodes ; i + + ) {
struct ggml_tensor * node = graph - > nodes [ i ] ;
if ( node_allocr ( node ) ! = NULL ) {
// do not overwrite user assignments
continue ;
}
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node_allocr ( node ) = sched_allocr_from_cur ( sched , node ) ;
// src
for ( int j = 0 ; j < GGML_MAX_SRC ; j + + ) {
struct ggml_tensor * src = node - > src [ j ] ;
if ( src = = NULL ) {
break ;
}
if ( node_allocr ( src ) = = NULL ) {
node_allocr ( src ) = sched_allocr_from_cur ( sched , src ) ;
}
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}
}
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# ifdef DEBUG_PASS1
fprintf ( stderr , " PASS 1 ASSIGNMENTS \n " ) ; sched_print_assignments ( sched , graph ) ;
# endif
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// pass 2: expand current backend assignments
// assign the same backend to adjacent nodes
// expand gpu backends (i.e. non last prio) up and down, ignoring cpu (the lowest priority backend)
// thus, cpu will never be used unless weights are on cpu, or there are no gpu ops between cpu ops
// pass 2.1 expand gpu up
{
ggml_tallocr_t cur_allocr = NULL ;
for ( int i = graph - > n_nodes - 1 ; i > = 0 ; i - - ) {
struct ggml_tensor * node = graph - > nodes [ i ] ;
if ( ggml_is_view_op ( node - > op ) ) {
continue ;
}
ggml_tallocr_t node_allocr = node_allocr ( node ) ;
if ( node_allocr ! = NULL ) {
if ( sched_allocr_prio ( sched , node_allocr ) = = sched - > n_backends - 1 ) {
// skip cpu (lowest prio backend)
cur_allocr = NULL ;
} else {
cur_allocr = node_allocr ;
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}
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} else {
node_allocr ( node ) = cur_allocr ;
SET_CAUSE ( node , " 2.1 " ) ;
}
}
}
// pass 2.2 expand gpu down
{
ggml_tallocr_t cur_allocr = NULL ;
for ( int i = 0 ; i < graph - > n_nodes ; i + + ) {
struct ggml_tensor * node = graph - > nodes [ i ] ;
if ( ggml_is_view_op ( node - > op ) ) {
continue ;
}
ggml_tallocr_t node_allocr = node_allocr ( node ) ;
if ( node_allocr ! = NULL ) {
if ( sched_allocr_prio ( sched , node_allocr ) = = sched - > n_backends - 1 ) {
// skip cpu (lowest prio backend)
cur_allocr = NULL ;
} else {
cur_allocr = node_allocr ;
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}
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} else {
node_allocr ( node ) = cur_allocr ;
SET_CAUSE ( node , " 2.2 " ) ;
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}
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}
}
// pass 2.3 expand rest up
{
ggml_tallocr_t cur_allocr = NULL ;
for ( int i = graph - > n_nodes - 1 ; i > = 0 ; i - - ) {
struct ggml_tensor * node = graph - > nodes [ i ] ;
if ( ggml_is_view_op ( node - > op ) ) {
continue ;
}
ggml_tallocr_t node_allocr = node_allocr ( node ) ;
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if ( node_allocr ! = NULL ) {
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cur_allocr = node_allocr ;
} else {
node_allocr ( node ) = cur_allocr ;
SET_CAUSE ( node , " 2.3 " ) ;
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}
}
}
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// pass 2.4 expand rest down
{
ggml_tallocr_t cur_allocr = NULL ;
for ( int i = 0 ; i < graph - > n_nodes ; i + + ) {
struct ggml_tensor * node = graph - > nodes [ i ] ;
if ( ggml_is_view_op ( node - > op ) ) {
continue ;
}
ggml_tallocr_t node_allocr = node_allocr ( node ) ;
if ( node_allocr ! = NULL ) {
cur_allocr = node_allocr ;
} else {
node_allocr ( node ) = cur_allocr ;
SET_CAUSE ( node , " 2.4 " ) ;
}
}
}
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# ifdef DEBUG_PASS2
fprintf ( stderr , " PASS 2 ASSIGNMENTS \n " ) ; sched_print_assignments ( sched , graph ) ;
# endif
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// pass 3: assign backends to remaining src from dst and view_src
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for ( int i = 0 ; i < graph - > n_nodes ; i + + ) {
struct ggml_tensor * node = graph - > nodes [ i ] ;
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ggml_tallocr_t cur_allocr = node_allocr ( node ) ;
if ( node - > view_src ! = NULL & & cur_allocr = = NULL ) {
cur_allocr = node_allocr ( node ) = node_allocr ( node - > view_src ) ;
SET_CAUSE ( node , " 3.vsrc " ) ;
}
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for ( int j = 0 ; j < GGML_MAX_SRC ; j + + ) {
struct ggml_tensor * src = node - > src [ j ] ;
if ( src = = NULL ) {
break ;
}
ggml_tallocr_t src_allocr = node_allocr ( src ) ;
if ( src_allocr = = NULL ) {
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if ( src - > view_src ! = NULL ) {
// views are always on the same backend as the source
node_allocr ( src ) = node_allocr ( src - > view_src ) ;
SET_CAUSE ( src , " 3.vsrc " ) ;
} else {
node_allocr ( src ) = cur_allocr ;
SET_CAUSE ( src , " 3.cur " ) ;
}
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}
}
}
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# ifdef DEBUG_PASS3
fprintf ( stderr , " PASS 3 ASSIGNMENTS \n " ) ; sched_print_assignments ( sched , graph ) ;
# endif
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// pass 4: split graph, find tensors that need to be copied
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{
int cur_split = 0 ;
// find the backend of the first split, skipping view ops
for ( int i = 0 ; i < graph - > n_nodes ; i + + ) {
struct ggml_tensor * node = graph - > nodes [ i ] ;
if ( ! ggml_is_view_op ( node - > op ) ) {
sched - > splits [ 0 ] . tallocr = node_allocr ( node ) ;
break ;
}
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}
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sched - > splits [ 0 ] . i_start = 0 ;
sched - > splits [ 0 ] . n_inputs = 0 ;
memset ( sched - > splits [ 0 ] . inputs , 0 , sizeof ( sched - > splits [ 0 ] . inputs ) ) ; //HACK
ggml_tallocr_t cur_allocr = sched - > splits [ 0 ] . tallocr ;
size_t cur_backend_id = sched_allocr_prio ( sched , cur_allocr ) ;
for ( int i = 0 ; i < graph - > n_nodes ; i + + ) {
struct ggml_tensor * node = graph - > nodes [ i ] ;
if ( ggml_is_view_op ( node - > op ) ) {
continue ;
}
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ggml_tallocr_t node_allocr = node_allocr ( node ) ;
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GGML_ASSERT ( node_allocr ! = NULL ) ; // all nodes should be assigned by now
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if ( node_allocr ! = cur_allocr ) {
sched - > splits [ cur_split ] . i_end = i ;
cur_split + + ;
GGML_ASSERT ( cur_split < GGML_MAX_SPLITS ) ;
sched - > splits [ cur_split ] . tallocr = node_allocr ;
sched - > splits [ cur_split ] . i_start = i ;
sched - > splits [ cur_split ] . n_inputs = 0 ;
cur_allocr = node_allocr ;
cur_backend_id = sched_allocr_prio ( sched , cur_allocr ) ;
}
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// find inputs that are not on the same backend
for ( int j = 0 ; j < GGML_MAX_SRC ; j + + ) {
struct ggml_tensor * src = node - > src [ j ] ;
if ( src = = NULL ) {
break ;
}
ggml_tallocr_t src_allocr = node_allocr ( src ) ;
GGML_ASSERT ( src_allocr ! = NULL ) ; // all inputs should be assigned by now
if ( src_allocr ! = node_allocr ) {
// check if the input is already in the split
bool found = false ;
for ( int k = 0 ; k < sched - > splits [ cur_split ] . n_inputs ; k + + ) {
if ( sched - > splits [ cur_split ] . inputs [ k ] = = src ) {
found = true ;
break ;
}
}
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if ( ! found ) {
int n_inputs = sched - > splits [ cur_split ] . n_inputs + + ;
//printf("split %d input %d: %s (%s)\n", cur_split, n_inputs, src->name, ggml_backend_name(get_allocr_backend(sched, src_allocr)));
GGML_ASSERT ( n_inputs < GGML_MAX_SPLIT_INPUTS ) ;
sched - > splits [ cur_split ] . inputs [ n_inputs ] = src ;
}
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// create a copy of the input in the split's backend
size_t id = hash_id ( src ) ;
if ( sched - > node_copies [ id ] [ cur_backend_id ] = = NULL ) {
ggml_backend_t backend = get_allocr_backend ( sched , cur_allocr ) ;
struct ggml_tensor * tensor_copy = ggml_dup_tensor_layout ( sched - > ctx , src ) ;
ggml_format_name ( tensor_copy , " %s#%s " , ggml_backend_name ( backend ) , src - > name ) ;
sched - > node_copies [ id ] [ cur_backend_id ] = tensor_copy ;
node_allocr ( tensor_copy ) = cur_allocr ;
SET_CAUSE ( tensor_copy , " 4.cpy " ) ;
}
node - > src [ j ] = sched - > node_copies [ id ] [ cur_backend_id ] ;
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}
}
}
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sched - > splits [ cur_split ] . i_end = graph - > n_nodes ;
sched - > n_splits = cur_split + 1 ;
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}
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# ifdef DEBUG_PASS4
fprintf ( stderr , " PASS 4 ASSIGNMENTS \n " ) ; sched_print_assignments ( sched , graph ) ;
# endif
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# ifndef NDEBUG
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// sanity check: all sources should have the same backend as the node
for ( int i = 0 ; i < graph - > n_nodes ; i + + ) {
struct ggml_tensor * node = graph - > nodes [ i ] ;
ggml_tallocr_t node_allocr = node_allocr ( node ) ;
if ( node_allocr = = NULL ) {
fprintf ( stderr , " !!!!!!! %s has no backend \n " , node - > name ) ;
}
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if ( node - > view_src ! = NULL & & node_allocr ! = node_allocr ( node - > view_src ) ) {
fprintf ( stderr , " !!!!!!! %s has backend %s, view_src %s has backend %s \n " ,
node - > name , node_allocr ? ggml_backend_name ( get_allocr_backend ( sched , node_allocr ) ) : " NULL " ,
node - > view_src - > name , node_allocr ( node - > view_src ) ? ggml_backend_name ( get_allocr_backend ( sched , node_allocr ( node - > view_src ) ) ) : " NULL " ) ;
}
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for ( int j = 0 ; j < GGML_MAX_SRC ; j + + ) {
struct ggml_tensor * src = node - > src [ j ] ;
if ( src = = NULL ) {
break ;
}
ggml_tallocr_t src_allocr = node_allocr ( src ) ;
if ( src_allocr ! = node_allocr /* && src_backend != NULL */ ) { // ignore nulls for now
fprintf ( stderr , " !!!! %s has backend %s, src %d (%s) has backend %s \n " ,
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node - > name , node_allocr ? ggml_backend_name ( get_allocr_backend ( sched , node_allocr ) ) : " NULL " ,
j , src - > name , src_allocr ? ggml_backend_name ( get_allocr_backend ( sched , src_allocr ) ) : " NULL " ) ;
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}
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if ( src - > view_src ! = NULL & & src_allocr ! = node_allocr ( src - > view_src ) ) {
fprintf ( stderr , " !!!!!!! [src] %s has backend %s, view_src %s has backend %s \n " ,
src - > name , src_allocr ? ggml_backend_name ( get_allocr_backend ( sched , src_allocr ) ) : " NULL " ,
src - > view_src - > name , node_allocr ( src - > view_src ) ? ggml_backend_name ( get_allocr_backend ( sched , node_allocr ( src - > view_src ) ) ) : " NULL " ) ;
}
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}
}
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fflush ( stderr ) ;
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# endif
// create copies of the graph for each split
// FIXME: avoid this copy, pass split inputs to ggml_gallocr_alloc_graph_n in some other way
struct ggml_cgraph * graph_copy = ggml_new_graph_custom ( sched - > ctx , graph - > n_nodes + sched - > n_splits * GGML_MAX_SPLIT_INPUTS , false ) ;
for ( int i = 0 ; i < sched - > n_splits ; i + + ) {
struct ggml_backend_sched_split * split = & sched - > splits [ i ] ;
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split - > graph = ggml_graph_view ( graph , split - > i_start , split - > i_end ) ;
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// add inputs to the graph copy so that they are allocated by ggml-alloc at the start of the split
for ( int j = 0 ; j < split - > n_inputs ; j + + ) {
struct ggml_tensor * input = split - > inputs [ j ] ;
struct ggml_tensor * input_cpy = sched - > node_copies [ hash_id ( input ) ] [ sched_allocr_prio ( sched , split - > tallocr ) ] ;
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// add a dependency to the input source so that it is not freed before the copy is done
GGML_ASSERT ( input_cpy - > src [ 0 ] = = NULL | | input_cpy - > src [ 0 ] = = input ) ;
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input_cpy - > src [ 0 ] = input ;
graph_copy - > nodes [ graph_copy - > n_nodes + + ] = input_cpy ;
}
for ( int j = split - > i_start ; j < split - > i_end ; j + + ) {
graph_copy - > nodes [ graph_copy - > n_nodes + + ] = graph - > nodes [ j ] ;
}
}
sched - > graph = graph_copy ;
}
static void sched_alloc_splits ( ggml_backend_sched_t sched ) {
ggml_gallocr_alloc_graph_n (
sched - > galloc ,
sched - > graph ,
sched - > hash_set ,
sched - > node_talloc ) ;
}
static void sched_compute_splits ( ggml_backend_sched_t sched ) {
uint64_t copy_us [ GGML_MAX_BACKENDS ] = { 0 } ;
uint64_t compute_us [ GGML_MAX_BACKENDS ] = { 0 } ;
struct ggml_backend_sched_split * splits = sched - > splits ;
for ( int i = 0 ; i < sched - > n_splits ; i + + ) {
struct ggml_backend_sched_split * split = & splits [ i ] ;
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ggml_backend_t split_backend = get_allocr_backend ( sched , split - > tallocr ) ;
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int split_backend_id = sched_backend_prio ( sched , split_backend ) ;
// copy the input tensors to the split backend
uint64_t copy_start_us = ggml_time_us ( ) ;
for ( int j = 0 ; j < split - > n_inputs ; j + + ) {
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struct ggml_tensor * input = split - > inputs [ j ] ;
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struct ggml_tensor * input_cpy = sched - > node_copies [ hash_id ( input ) ] [ split_backend_id ] ;
GGML_ASSERT ( input - > buffer ! = NULL ) ;
GGML_ASSERT ( input_cpy - > buffer ! = NULL ) ;
// TODO: avoid this copy if it was already copied in a previous split, and the input didn't change
// this is important to avoid copying constants such as KQ_mask and inp_pos multiple times
ggml_backend_tensor_copy_async ( split_backend , input , input_cpy ) ;
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}
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//ggml_backend_synchronize(split_backend); // necessary to measure copy time
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int64_t copy_end_us = ggml_time_us ( ) ;
copy_us [ split_backend_id ] + = copy_end_us - copy_start_us ;
#if 0
char split_filename [ GGML_MAX_NAME ] ;
snprintf ( split_filename , GGML_MAX_NAME , " split_%i_%s.dot " , i , ggml_backend_name ( split_backend ) ) ;
ggml_graph_dump_dot ( split - > graph , NULL , split_filename ) ;
# endif
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uint64_t compute_start_us = ggml_time_us ( ) ;
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if ( ! sched - > callback_eval ) {
ggml_backend_graph_compute ( split_backend , & split - > graph ) ;
//ggml_backend_synchronize(split_backend); // necessary to measure compute time
} else {
// similar to ggml_backend_compare_graph_backend
for ( int j0 = 0 ; j0 < split - > graph . n_nodes ; j0 + + ) {
struct ggml_tensor * t = split - > graph . nodes [ j0 ] ;
// check if the user needs data from this node
bool need = sched - > callback_eval ( t , true , sched - > callback_eval_user_data ) ;
int j1 = j0 ;
// determine the range [j0, j1] of nodes that can be computed together
while ( ! need & & j1 < split - > graph . n_nodes - 1 ) {
t = split - > graph . nodes [ + + j1 ] ;
need = sched - > callback_eval ( t , true , sched - > callback_eval_user_data ) ;
}
struct ggml_cgraph gv = ggml_graph_view ( & split - > graph , j0 , j1 + 1 ) ;
ggml_backend_graph_compute ( split_backend , & gv ) ;
if ( need & & ! sched - > callback_eval ( t , false , sched - > callback_eval_user_data ) ) {
break ;
}
j0 = j1 ;
}
}
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uint64_t compute_end_us = ggml_time_us ( ) ;
compute_us [ split_backend_id ] + = compute_end_us - compute_start_us ;
}
#if 0
// per-backend timings
fprintf ( stderr , " sched_compute_splits times (%d splits): \n " , sched - > n_splits ) ;
for ( int i = 0 ; i < sched - > n_backends ; i + + ) {
if ( copy_us [ i ] > 0 | | compute_us [ i ] > 0 ) {
fprintf ( stderr , " \t %5.5s: %lu us copy, %lu us compute \n " , ggml_backend_name ( sched - > backends [ i ] ) , copy_us [ i ] , compute_us [ i ] ) ;
}
}
# endif
}
static void sched_reset ( ggml_backend_sched_t sched ) {
for ( int i = 0 ; i < sched - > n_backends ; i + + ) {
ggml_tallocr_reset ( sched - > tallocs [ i ] ) ;
}
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// reset state for the next run
size_t hash_size = sched - > hash_set . size ;
memset ( sched - > hash_set . keys , 0 , sizeof ( sched - > hash_set . keys [ 0 ] ) * hash_size ) ;
memset ( sched - > node_talloc , 0 , sizeof ( sched - > node_talloc [ 0 ] ) * hash_size ) ;
memset ( sched - > node_copies , 0 , sizeof ( sched - > node_copies [ 0 ] ) * hash_size ) ;
sched - > is_reset = true ;
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}
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ggml_backend_sched_t ggml_backend_sched_new ( ggml_backend_t * backends , ggml_backend_buffer_type_t * bufts , int n_backends , size_t graph_size ) {
GGML_ASSERT ( n_backends > 0 ) ;
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GGML_ASSERT ( n_backends < = GGML_MAX_BACKENDS ) ;
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struct ggml_backend_sched * sched = calloc ( sizeof ( struct ggml_backend_sched ) , 1 ) ;
// initialize hash table
sched - > hash_set = ggml_hash_set_new ( graph_size + GGML_MAX_SPLITS * GGML_MAX_SPLIT_INPUTS ) ;
sched - > node_talloc = calloc ( sizeof ( sched - > node_talloc [ 0 ] ) * sched - > hash_set . size , 1 ) ;
sched - > node_copies = calloc ( sizeof ( sched - > node_copies [ 0 ] ) * sched - > hash_set . size , 1 ) ;
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sched - > n_backends = n_backends ;
for ( int i = 0 ; i < n_backends ; i + + ) {
sched - > backends [ i ] = backends [ i ] ;
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sched - > bufts [ i ] = bufts ? bufts [ i ] : ggml_backend_get_default_buffer_type ( backends [ i ] ) ;
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}
sched - > galloc = ggml_gallocr_new ( ) ;
// init measure allocs for each backend
for ( int i = 0 ; i < n_backends ; i + + ) {
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sched - > tallocs [ i ] = ggml_tallocr_new_measure_from_buft ( sched - > bufts [ i ] ) ;
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}
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sched_reset ( sched ) ;
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return sched ;
}
void ggml_backend_sched_free ( ggml_backend_sched_t sched ) {
if ( sched = = NULL ) {
return ;
}
for ( int i = 0 ; i < sched - > n_backends ; i + + ) {
ggml_tallocr_free ( sched - > tallocs [ i ] ) ;
}
ggml_gallocr_free ( sched - > galloc ) ;
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ggml_free ( sched - > ctx ) ;
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free ( sched - > hash_set . keys ) ;
free ( sched - > node_talloc ) ;
free ( sched - > node_copies ) ;
free ( sched ) ;
}
void ggml_backend_sched_init_measure ( ggml_backend_sched_t sched , struct ggml_cgraph * measure_graph ) {
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GGML_ASSERT ( ggml_tallocr_is_measure ( sched - > tallocs [ 0 ] ) ) ; // can only be initialized once
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sched_split_graph ( sched , measure_graph ) ;
sched_alloc_splits ( sched ) ;
// allocate buffers and reset allocators
for ( int i = 0 ; i < sched - > n_backends ; i + + ) {
size_t size = ggml_tallocr_max_size ( sched - > tallocs [ i ] ) ;
ggml_tallocr_free ( sched - > tallocs [ i ] ) ;
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sched - > tallocs [ i ] = ggml_tallocr_new_from_buft ( sched - > bufts [ i ] , size ) ;
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}
sched_reset ( sched ) ;
}
void ggml_backend_sched_graph_compute ( ggml_backend_sched_t sched , struct ggml_cgraph * graph ) {
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GGML_ASSERT ( ( int ) sched - > hash_set . size > = graph - > n_nodes + GGML_MAX_SPLITS * GGML_MAX_SPLIT_INPUTS ) ;
if ( ! sched - > is_reset ) {
sched_reset ( sched ) ;
}
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sched_split_graph ( sched , graph ) ;
sched_alloc_splits ( sched ) ;
sched_compute_splits ( sched ) ;
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}
void ggml_backend_sched_reset ( ggml_backend_sched_t sched ) {
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sched_reset ( sched ) ;
}
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void ggml_backend_sched_set_eval_callback ( ggml_backend_sched_t sched , ggml_backend_sched_eval_callback callback , void * user_data ) {
sched - > callback_eval = callback ;
sched - > callback_eval_user_data = user_data ;
}
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int ggml_backend_sched_get_n_splits ( ggml_backend_sched_t sched ) {
return sched - > n_splits ;
}
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ggml_tallocr_t ggml_backend_sched_get_tallocr ( ggml_backend_sched_t sched , ggml_backend_t backend ) {
int backend_index = sched_backend_prio ( sched , backend ) ;
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GGML_ASSERT ( backend_index > = 0 & & backend_index < sched - > n_backends ) ;
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return sched - > tallocs [ backend_index ] ;
}
ggml_backend_buffer_t ggml_backend_sched_get_buffer ( ggml_backend_sched_t sched , ggml_backend_t backend ) {
int backend_index = sched_backend_prio ( sched , backend ) ;
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GGML_ASSERT ( backend_index > = 0 & & backend_index < sched - > n_backends ) ;
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return ggml_tallocr_get_buffer ( sched - > tallocs [ backend_index ] ) ;
}
void ggml_backend_sched_set_node_backend ( ggml_backend_sched_t sched , struct ggml_tensor * node , ggml_backend_t backend ) {
int backend_index = sched_backend_prio ( sched , backend ) ;
GGML_ASSERT ( backend_index > = 0 & & backend_index < sched - > n_backends ) ;
node_allocr ( node ) = sched - > tallocs [ backend_index ] ;
}
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ggml_backend_t ggml_backend_sched_get_node_backend ( ggml_backend_sched_t sched , struct ggml_tensor * node ) {
ggml_tallocr_t allocr = node_allocr ( node ) ;
if ( allocr = = NULL ) {
return NULL ;
}
return get_allocr_backend ( sched , allocr ) ;
}
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// utils
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void ggml_backend_view_init ( ggml_backend_buffer_t buffer , struct ggml_tensor * tensor ) {
GGML_ASSERT ( tensor - > buffer = = NULL ) ;
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//GGML_ASSERT(tensor->data == NULL); // views of pre-allocated tensors may have the data set in ggml_new_tensor, but still need to be initialized by the backend
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GGML_ASSERT ( tensor - > view_src ! = NULL ) ;
GGML_ASSERT ( tensor - > view_src - > buffer ! = NULL ) ;
GGML_ASSERT ( tensor - > view_src - > data ! = NULL ) ;
tensor - > buffer = buffer ;
tensor - > data = ( char * ) tensor - > view_src - > data + tensor - > view_offs ;
tensor - > backend = tensor - > view_src - > backend ;
ggml_backend_buffer_init_tensor ( buffer , tensor ) ;
}
void ggml_backend_tensor_alloc ( ggml_backend_buffer_t buffer , struct ggml_tensor * tensor , void * addr ) {
GGML_ASSERT ( tensor - > buffer = = NULL ) ;
GGML_ASSERT ( tensor - > data = = NULL ) ;
GGML_ASSERT ( tensor - > view_src = = NULL ) ;
GGML_ASSERT ( addr > = ggml_backend_buffer_get_base ( buffer ) ) ;
GGML_ASSERT ( ( char * ) addr + ggml_backend_buffer_get_alloc_size ( buffer , tensor ) < =
( char * ) ggml_backend_buffer_get_base ( buffer ) + ggml_backend_buffer_get_size ( buffer ) ) ;
tensor - > buffer = buffer ;
tensor - > data = addr ;
ggml_backend_buffer_init_tensor ( buffer , tensor ) ;
}
static struct ggml_tensor * graph_dup_tensor ( struct ggml_hash_set hash_set , struct ggml_tensor * * node_copies ,
struct ggml_context * ctx_allocated , struct ggml_context * ctx_unallocated , struct ggml_tensor * src ) {
GGML_ASSERT ( src ! = NULL ) ;
GGML_ASSERT ( src - > data & & " graph must be allocated " ) ;
size_t id = ggml_hash_insert ( hash_set , src ) ;
if ( id = = GGML_HASHTABLE_ALREADY_EXISTS ) {
return node_copies [ ggml_hash_find ( hash_set , src ) ] ;
}
struct ggml_tensor * dst = ggml_dup_tensor_layout ( src - > data & & ! src - > view_src ? ctx_allocated : ctx_unallocated , src ) ;
if ( src - > view_src ! = NULL ) {
dst - > view_src = graph_dup_tensor ( hash_set , node_copies , ctx_allocated , ctx_unallocated , src - > view_src ) ;
dst - > view_offs = src - > view_offs ;
}
dst - > op = src - > op ;
memcpy ( dst - > op_params , src - > op_params , sizeof ( dst - > op_params ) ) ;
ggml_set_name ( dst , src - > name ) ;
// copy src
for ( int i = 0 ; i < GGML_MAX_SRC ; i + + ) {
struct ggml_tensor * s = src - > src [ i ] ;
if ( s = = NULL ) {
break ;
}
dst - > src [ i ] = graph_dup_tensor ( hash_set , node_copies , ctx_allocated , ctx_unallocated , s ) ;
}
node_copies [ id ] = dst ;
return dst ;
}
static void graph_init_tensor ( struct ggml_hash_set hash_set , struct ggml_tensor * * node_copies , bool * node_init , struct ggml_tensor * src ) {
size_t id = ggml_hash_find ( hash_set , src ) ;
if ( node_init [ id ] ) {
return ;
}
node_init [ id ] = true ;
struct ggml_tensor * dst = node_copies [ id ] ;
if ( dst - > view_src ! = NULL ) {
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graph_init_tensor ( hash_set , node_copies , node_init , src - > view_src ) ;
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ggml_backend_view_init ( dst - > view_src - > buffer , dst ) ;
}
else {
ggml_backend_tensor_copy ( src , dst ) ;
}
// init src
for ( int i = 0 ; i < GGML_MAX_SRC ; i + + ) {
struct ggml_tensor * s = src - > src [ i ] ;
if ( s = = NULL ) {
break ;
}
graph_init_tensor ( hash_set , node_copies , node_init , s ) ;
}
}
struct ggml_backend_graph_copy ggml_backend_graph_copy ( ggml_backend_t backend , struct ggml_cgraph * graph ) {
struct ggml_hash_set hash_set = {
/* .size = */ graph - > visited_hash_table . size ,
/* .keys = */ calloc ( sizeof ( hash_set . keys [ 0 ] ) * graph - > visited_hash_table . size , 1 )
} ;
struct ggml_tensor * * node_copies = calloc ( sizeof ( node_copies [ 0 ] ) * hash_set . size , 1 ) ;
bool * node_init = calloc ( sizeof ( node_init [ 0 ] ) * hash_set . size , 1 ) ;
struct ggml_init_params params = {
/* .mem_size = */ ggml_tensor_overhead ( ) * hash_set . size + ggml_graph_overhead_custom ( graph - > size , false ) ,
/* .mem_buffer = */ NULL ,
/* .no_alloc = */ true
} ;
struct ggml_context * ctx_allocated = ggml_init ( params ) ;
struct ggml_context * ctx_unallocated = ggml_init ( params ) ;
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if ( ctx_allocated = = NULL | | ctx_unallocated = = NULL ) {
fprintf ( stderr , " failed to allocate context for graph copy \n " ) ;
free ( hash_set . keys ) ;
free ( node_copies ) ;
free ( node_init ) ;
ggml_free ( ctx_allocated ) ;
ggml_free ( ctx_unallocated ) ;
return ( struct ggml_backend_graph_copy ) {
/* .buffer = */ NULL ,
/* .ctx_allocated = */ NULL ,
/* .ctx_unallocated = */ NULL ,
/* .graph = */ NULL ,
} ;
}
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// dup nodes
for ( int i = 0 ; i < graph - > n_nodes ; i + + ) {
struct ggml_tensor * node = graph - > nodes [ i ] ;
graph_dup_tensor ( hash_set , node_copies , ctx_allocated , ctx_unallocated , node ) ;
}
// allocate nodes
ggml_backend_buffer_t buffer = ggml_backend_alloc_ctx_tensors ( ctx_allocated , backend ) ;
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if ( buffer = = NULL ) {
fprintf ( stderr , " failed to allocate buffer for graph copy \n " ) ;
free ( hash_set . keys ) ;
free ( node_copies ) ;
free ( node_init ) ;
ggml_free ( ctx_allocated ) ;
ggml_free ( ctx_unallocated ) ;
return ( struct ggml_backend_graph_copy ) {
/* .buffer = */ NULL ,
/* .ctx_allocated = */ NULL ,
/* .ctx_unallocated = */ NULL ,
/* .graph = */ NULL ,
} ;
}
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//printf("copy buffer size: %zu MB\n", ggml_backend_buffer_get_size(buffer) / 1024 / 1024);
// copy data and init views
for ( int i = 0 ; i < graph - > n_nodes ; i + + ) {
struct ggml_tensor * node = graph - > nodes [ i ] ;
graph_init_tensor ( hash_set , node_copies , node_init , node ) ;
}
// build graph copy
struct ggml_cgraph * graph_copy = ggml_new_graph_custom ( ctx_allocated , graph - > size , false ) ;
for ( int i = 0 ; i < graph - > n_nodes ; i + + ) {
struct ggml_tensor * node = graph - > nodes [ i ] ;
struct ggml_tensor * node_copy = node_copies [ ggml_hash_find ( hash_set , node ) ] ;
graph_copy - > nodes [ i ] = node_copy ;
}
graph_copy - > n_nodes = graph - > n_nodes ;
free ( hash_set . keys ) ;
free ( node_copies ) ;
free ( node_init ) ;
return ( struct ggml_backend_graph_copy ) {
/* .buffer = */ buffer ,
/* .ctx_allocated = */ ctx_allocated ,
/* .ctx_unallocated = */ ctx_unallocated ,
/* .graph = */ graph_copy ,
} ;
}
void ggml_backend_graph_copy_free ( struct ggml_backend_graph_copy copy ) {
ggml_backend_buffer_free ( copy . buffer ) ;
ggml_free ( copy . ctx_allocated ) ;
ggml_free ( copy . ctx_unallocated ) ;
}
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bool ggml_backend_compare_graph_backend ( ggml_backend_t backend1 , ggml_backend_t backend2 , struct ggml_cgraph * graph , ggml_backend_eval_callback callback , void * user_data ) {
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struct ggml_backend_graph_copy copy = ggml_backend_graph_copy ( backend2 , graph ) ;
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if ( copy . buffer = = NULL ) {
return false ;
}
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struct ggml_cgraph * g1 = graph ;
struct ggml_cgraph * g2 = copy . graph ;
assert ( g1 - > n_nodes = = g2 - > n_nodes ) ;
for ( int i = 0 ; i < g1 - > n_nodes ; i + + ) {
//printf("eval %d/%d\n", i, g1->n_nodes);
struct ggml_tensor * t1 = g1 - > nodes [ i ] ;
struct ggml_tensor * t2 = g2 - > nodes [ i ] ;
assert ( t1 - > op = = t2 - > op & & ggml_are_same_layout ( t1 , t2 ) ) ;
struct ggml_cgraph g1v = ggml_graph_view ( g1 , i , i + 1 ) ;
struct ggml_cgraph g2v = ggml_graph_view ( g2 , i , i + 1 ) ;
ggml_backend_graph_compute ( backend1 , & g1v ) ;
ggml_backend_graph_compute ( backend2 , & g2v ) ;
if ( ggml_is_view_op ( t1 - > op ) ) {
continue ;
}
// compare results, calculate rms etc
if ( ! callback ( i , t1 , t2 , user_data ) ) {
break ;
}
}
ggml_backend_graph_copy_free ( copy ) ;
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return true ;
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}