esp-who/components/esp-sr/lib/include/dl_lib_convq_queue.h

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2020-08-07 11:10:29 +08:00
// Copyright 2015-2019 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef DL_LIB_CONVQ_QUEUE_H
#define DL_LIB_CONVQ_QUEUE_H
#include "dl_lib_matrixq.h"
#include "dl_lib_conv_queue.h"
//fixed-point convolution FIFO queue.
typedef struct {
int n; /*< the length of queue */
int c; /*< the channel number of queue element*/
int front; /*< the front(top) position of queue */
int flag; /*< not used */
int exponent; /*< The values in items should be multiplied by pow(2,exponent)
to get the real values */
qtp_t *itemq; /*< Pointer to item array */
} dl_convq_queue_t;
/**
* @brief Allocate a fixed-point convolution queue
*
* @param n The length of queue
* @param c The channel number of elements in the queue
* @return The convolution queue, or NULL if out of memory
*/
dl_convq_queue_t *dl_convq_queue_alloc(int n, int c);
void dl_convq_to_matrix2dq(dl_convq_queue_t *cq, dl_matrix2dq_t* out, int row);
/**
* @brief Free a fixed-point convolution queue
*
* @param cq The fixed-point convolution queue to free
*/
void dl_convq_queue_free(dl_convq_queue_t *cq);
/**
* @brief Move the front pointer of queue forward,
the First(oldest) element become the last(newest) element,
*
* @param cq Input fixed-point convolution queue
* @return Pointer of oldest element
*/
qtp_t *dl_convq_queue_pop(dl_convq_queue_t *cq);
/**
* @brief Remove the oldest element, then insert the input element at the end of queue
*
* @param cq Input fixed-point convolution queue
* @param item The new element
*/
void dl_convq_queue_push(dl_convq_queue_t *cq, dl_matrix2dq_t *a, int shift);
/**
* @brief Insert the float-point element at the end of queue.
* The precision of fixed-point numbers is described by the Qm.f notation,
*
* @param cq Input fixed-point convolution queue
* @param item The float-point element
* @param m_bit The number of integer bits including the sign bits
* @param f_bit The number of fractional bits
*/
void dl_convq_queue_push_by_qmf(dl_convq_queue_t *cq, fptp_t* item, int m_bit, int f_bit);
/**
* @brief Get the pointer of element in the queue by offset
*
* @param cq Input fixed-point convolution queue
* @param offset Offset from the front of the queue
* @return Pointer of the element
*/
qtp_t *dl_get_queue_itemq(dl_convq_queue_t *cq, int offset);
/**
* @brief Does a tanh operation on the one of element in the convolution queue.
* Gets the pointer of element in the convolution queue by offset, and does a
* tanh operation by this pointer, then return the pointer
*
* @param cq Input fixed-point convolution queue
* @param offset Offset from the front of the queue
* @return Pointer of the element
*/
void dl_tanh_convq(dl_convq_queue_t *cq, int last_num);
/**
* @brief Does a relu operation on the one of element in the convolution queue.
* Gets the pointer of element in the convolution queue by offset, and does a
* relu operation by this pointer, then return the pointer
*
* @param cq Input fixed-point convolution queue
* @param offset Offset from the front of the queue
* @return Pointer of the element
*/
void dl_relu_convq(dl_convq_queue_t *cq, fptp_t clip, int last_num);
/**
* @brief Does a softmax operation on the one of element in the convolution queue.
* Gets the pointer of element in the convolution queue by offset, input data
stay as it is. Results are saved into the *out* array.
*
* @param cq Input fixed-point convolution queue
* @param offset Offset from the front of the queue
* @param out Old array to re-use. Passing NULL will allocate a new matrix.
* @return softmax results
*/
fptp_t * dl_softmax_step_q(dl_convq_queue_t *cq, int offset, fptp_t *out);
/**
* @brief Fast and quantised implement for 1D atrous convolution (a.k.a. convolution with holes or dilated convolution)
* based on convolution queue.
*
* @Warning All input and output convolution queue and matrix should be allocated. The return pointer
* is last element of output queue and should not be freed separately.
*
* @param in Input fixed-point convolution queue
* @param out Output fixed-point convolution queue
* @param rate A positive int, the stride with which we sample input value
* @param size A positive int, the size of 1D-filter
* @param kernel The kernel matrix of filter
* @param bias The bias matrix of filter. Can be NULL if a bias of 0 is required.
* @param shift Shift ratio used in dot operation between two 16-bit fixed point vector
* @return The result of atrous convolution
*/
qtp_t *dl_atrous_conv1dq(dl_convq_queue_t *in, dl_convq_queue_t *out, int rate, int size,
dl_matrix2dq_t* kernel, dl_matrix2dq_t* bias, int shift);
qtp_t *dl_atrous_conv1dq_steps(dl_convq_queue_t *in, dl_convq_queue_t *out, int rate, int size,
dl_matrix2dq_t* kernel, dl_matrix2dq_t* bias, int shift, int offset);
/**
* @brief Fast implement of dilation layer as follows
*
* |-> [gate(sigmoid)] -|
* input - | |-> (*) - output
* |-> [filter(tanh)] -|
*
* @Warning All input and output convolution queue and matrix should be allocated. The return pointer
* is last element of output queue and should not be freed separately.
*
* @param in Input fixed-point convolution queue
* @param out Output fixed-point convolution queue
* @param rate A positive int, the stride with which we sample input value
* @param size A positive int, the size of 1D-filter
* @param filter_kernel The kernel matrix of filter
* @param filter_bias The bias matrix of filter. Can be NULL if a bias of 0 is required.
* @param gate_kernel The kernel matrix of gate
* @param gate_bias The bias matrix of gate. Can be NULL if a bias of 0 is required.
* @filter_shift Shift ratio used in filter operation between two 16-bit fixed point vector
* @gate_shift Shift ratio used in gate operation between two 16-bit fixed point vector
* @return The result of dilation layer
*/
qtp_t *dl_dilation_layerq(dl_convq_queue_t *in, dl_convq_queue_t *out, int rate, int size,
dl_matrix2dq_t* filter_kernel, dl_matrix2dq_t* filter_bias,
dl_matrix2dq_t* gate_kernel, dl_matrix2dq_t* gate_bias,
int filter_shift, int gate_shift);
dl_matrix2dq_t *dl_basic_lstm_layer1_q(const dl_convq_queue_t *in, dl_matrix2dq_t *state_c, dl_matrix2dq_t *state_h,
const dl_matrix2dq_t *weight, const dl_matrix2dq_t *bias, int step, int shift);
void test_atrous_convq(int size, int rate, int in_channel, int out_channel);
dl_conv_queue_t *dl_convq_queue_add(dl_convq_queue_t *cq1, dl_convq_queue_t *cq2);
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#endif