ext/mcpat/cacti/decoder.h - public/gem5 - Git at Google

 /*****************************************************************************
  *                                McPAT/CACTI
  *                      SOFTWARE LICENSE AGREEMENT
  *            Copyright 2012 Hewlett-Packard Development Company, L.P.
  *            Copyright (c) 2010-2013 Advanced Micro Devices, Inc.
  *                          All Rights Reserved
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are
  * met: redistributions of source code must retain the above copyright
  * notice, this list of conditions and the following disclaimer;
  * redistributions in binary form must reproduce the above copyright
  * notice, this list of conditions and the following disclaimer in the
  * documentation and/or other materials provided with the distribution;
  * neither the name of the copyright holders nor the names of its
  * contributors may be used to endorse or promote products derived from
  * this software without specific prior written permission.

  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
  * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  *
  ***************************************************************************/


 #ifndef __DECODER_H__
 #define __DECODER_H__

 #include <vector>

 #include "area.h"
 #include "component.h"
 #include "parameter.h"

 using namespace std;


 class Decoder : public Component {
 public:
     Decoder(
         int _num_dec_signals,
         bool flag_way_select,
         double _C_ld_dec_out,
         double _R_wire_dec_out,
         bool fully_assoc_,
         bool is_dram_,
         bool is_wl_tr_,
         const Area & cell_);

     bool   exist;
     int    num_in_signals;
     double C_ld_dec_out;
     double R_wire_dec_out;
     int    num_gates;
     int    num_gates_min;
     double w_dec_n[MAX_NUMBER_GATES_STAGE];
     double w_dec_p[MAX_NUMBER_GATES_STAGE];
     double delay;
     //powerDef power;
     bool   fully_assoc;
     bool   is_dram;
     bool   is_wl_tr;
     const  Area & cell;


     void   compute_widths();
     void   compute_area();
     double compute_delays(double inrisetime);  // return outrisetime

     void leakage_feedback(double temperature);
 };


 class PredecBlk : public Component {
 public:
     PredecBlk(
         int num_dec_signals,
         Decoder * dec,
         double C_wire_predec_blk_out,
         double R_wire_predec_blk_out,
         int    num_dec_per_predec,
         bool   is_dram_,
         bool   is_blk1);

     Decoder * dec;
     bool exist;
     int number_input_addr_bits;
     double C_ld_predec_blk_out;
     double R_wire_predec_blk_out;
     int branch_effort_nand2_gate_output;
     int branch_effort_nand3_gate_output;
     bool   flag_two_unique_paths;
     int flag_L2_gate;
     int number_inputs_L1_gate;
     int number_gates_L1_nand2_path;
     int number_gates_L1_nand3_path;
     int number_gates_L2;
     int min_number_gates_L1;
     int min_number_gates_L2;
     int num_L1_active_nand2_path;
     int num_L1_active_nand3_path;
     double w_L1_nand2_n[MAX_NUMBER_GATES_STAGE];
     double w_L1_nand2_p[MAX_NUMBER_GATES_STAGE];
     double w_L1_nand3_n[MAX_NUMBER_GATES_STAGE];
     double w_L1_nand3_p[MAX_NUMBER_GATES_STAGE];
     double w_L2_n[MAX_NUMBER_GATES_STAGE];
     double w_L2_p[MAX_NUMBER_GATES_STAGE];
     double delay_nand2_path;
     double delay_nand3_path;
     powerDef power_nand2_path;
     powerDef power_nand3_path;
     powerDef power_L2;

     bool is_dram_;

     void compute_widths();
     void compute_area();

     void leakage_feedback(double temperature);

     pair<double, double> compute_delays(pair<double, double> inrisetime); // <nand2, nand3>
     // return <outrise_nand2, outrise_nand3>
 };


 class PredecBlkDrv : public Component {
 public:
     PredecBlkDrv(
         int   way_select,
         PredecBlk * blk_,
         bool  is_dram);

     int flag_driver_exists;
     int number_input_addr_bits;
     int number_gates_nand2_path;
     int number_gates_nand3_path;
     int min_number_gates;
     int num_buffers_driving_1_nand2_load;
     int num_buffers_driving_2_nand2_load;
     int num_buffers_driving_4_nand2_load;
     int num_buffers_driving_2_nand3_load;
     int num_buffers_driving_8_nand3_load;
     int num_buffers_nand3_path;
     double c_load_nand2_path_out;
     double c_load_nand3_path_out;
     double r_load_nand2_path_out;
     double r_load_nand3_path_out;
     double width_nand2_path_n[MAX_NUMBER_GATES_STAGE];
     double width_nand2_path_p[MAX_NUMBER_GATES_STAGE];
     double width_nand3_path_n[MAX_NUMBER_GATES_STAGE];
     double width_nand3_path_p[MAX_NUMBER_GATES_STAGE];
     double delay_nand2_path;
     double delay_nand3_path;
     powerDef power_nand2_path;
     powerDef power_nand3_path;

     PredecBlk * blk;
     Decoder   * dec;
     bool  is_dram_;
     int   way_select;

     void compute_widths();
     void compute_area();

     void leakage_feedback(double temperature);


     pair<double, double> compute_delays(
         double inrisetime_nand2_path,
         double inrisetime_nand3_path);  // return <outrise_nand2, outrise_nand3>

     inline int num_addr_bits_nand2_path() {
         return num_buffers_driving_1_nand2_load +
                num_buffers_driving_2_nand2_load +
                num_buffers_driving_4_nand2_load;
     }
     inline int num_addr_bits_nand3_path() {
         return num_buffers_driving_2_nand3_load +
                num_buffers_driving_8_nand3_load;
     }
     double get_rdOp_dynamic_E(int num_act_mats_hor_dir);
 };


 class Predec : public Component {
 public:
     Predec(
         PredecBlkDrv * drv1,
         PredecBlkDrv * drv2);

     double compute_delays(double inrisetime);  // return outrisetime

     void leakage_feedback(double temperature);
     PredecBlk    * blk1;
     PredecBlk    * blk2;
     PredecBlkDrv * drv1;
     PredecBlkDrv * drv2;

     powerDef block_power;
     powerDef driver_power;

 private:
     // returns <delay, risetime>
     pair<double, double> get_max_delay_before_decoder(
         pair<double, double> input_pair1,
         pair<double, double> input_pair2);
 };


 class Driver : public Component {
 public:
     Driver(double c_gate_load_, double c_wire_load_, double r_wire_load_, bool is_dram);

     int    number_gates;
     int    min_number_gates;
     double width_n[MAX_NUMBER_GATES_STAGE];
     double width_p[MAX_NUMBER_GATES_STAGE];
     double c_gate_load;
     double c_wire_load;
     double r_wire_load;
     double delay;
     powerDef power;
     bool   is_dram_;

     void   compute_widths();
     double compute_delay(double inrisetime);
 };


 #endif
	/*****************************************************************************
	* McPAT/CACTI
	* SOFTWARE LICENSE AGREEMENT
	* Copyright 2012 Hewlett-Packard Development Company, L.P.
	* Copyright (c) 2010-2013 Advanced Micro Devices, Inc.
	* All Rights Reserved
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are
	* met: redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer;
	* redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution;
	* neither the name of the copyright holders nor the names of its
	* contributors may be used to endorse or promote products derived from
	* this software without specific prior written permission.

	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*
	***************************************************************************/


	#ifndef __DECODER_H__
	#define __DECODER_H__

	#include <vector>

	#include "area.h"
	#include "component.h"
	#include "parameter.h"

	using namespace std;


	class Decoder : public Component {
	public:
	Decoder(
	int _num_dec_signals,
	bool flag_way_select,
	double _C_ld_dec_out,
	double _R_wire_dec_out,
	bool fully_assoc_,
	bool is_dram_,
	bool is_wl_tr_,
	const Area & cell_);

	bool exist;
	int num_in_signals;
	double C_ld_dec_out;
	double R_wire_dec_out;
	int num_gates;
	int num_gates_min;
	double w_dec_n[MAX_NUMBER_GATES_STAGE];
	double w_dec_p[MAX_NUMBER_GATES_STAGE];
	double delay;
	//powerDef power;
	bool fully_assoc;
	bool is_dram;
	bool is_wl_tr;
	const Area & cell;


	void compute_widths();
	void compute_area();
	double compute_delays(double inrisetime); // return outrisetime

	void leakage_feedback(double temperature);
	};



	class PredecBlk : public Component {
	public:
	PredecBlk(
	int num_dec_signals,
	Decoder * dec,
	double C_wire_predec_blk_out,
	double R_wire_predec_blk_out,
	int num_dec_per_predec,
	bool is_dram_,
	bool is_blk1);

	Decoder * dec;
	bool exist;
	int number_input_addr_bits;
	double C_ld_predec_blk_out;
	double R_wire_predec_blk_out;
	int branch_effort_nand2_gate_output;
	int branch_effort_nand3_gate_output;
	bool flag_two_unique_paths;
	int flag_L2_gate;
	int number_inputs_L1_gate;
	int number_gates_L1_nand2_path;
	int number_gates_L1_nand3_path;
	int number_gates_L2;
	int min_number_gates_L1;
	int min_number_gates_L2;
	int num_L1_active_nand2_path;
	int num_L1_active_nand3_path;
	double w_L1_nand2_n[MAX_NUMBER_GATES_STAGE];
	double w_L1_nand2_p[MAX_NUMBER_GATES_STAGE];
	double w_L1_nand3_n[MAX_NUMBER_GATES_STAGE];
	double w_L1_nand3_p[MAX_NUMBER_GATES_STAGE];
	double w_L2_n[MAX_NUMBER_GATES_STAGE];
	double w_L2_p[MAX_NUMBER_GATES_STAGE];
	double delay_nand2_path;
	double delay_nand3_path;
	powerDef power_nand2_path;
	powerDef power_nand3_path;
	powerDef power_L2;

	bool is_dram_;

	void compute_widths();
	void compute_area();

	void leakage_feedback(double temperature);

	pair<double, double> compute_delays(pair<double, double> inrisetime); // <nand2, nand3>
	// return <outrise_nand2, outrise_nand3>
	};


	class PredecBlkDrv : public Component {
	public:
	PredecBlkDrv(
	int way_select,
	PredecBlk * blk_,
	bool is_dram);

	int flag_driver_exists;
	int number_input_addr_bits;
	int number_gates_nand2_path;
	int number_gates_nand3_path;
	int min_number_gates;
	int num_buffers_driving_1_nand2_load;
	int num_buffers_driving_2_nand2_load;
	int num_buffers_driving_4_nand2_load;
	int num_buffers_driving_2_nand3_load;
	int num_buffers_driving_8_nand3_load;
	int num_buffers_nand3_path;
	double c_load_nand2_path_out;
	double c_load_nand3_path_out;
	double r_load_nand2_path_out;
	double r_load_nand3_path_out;
	double width_nand2_path_n[MAX_NUMBER_GATES_STAGE];
	double width_nand2_path_p[MAX_NUMBER_GATES_STAGE];
	double width_nand3_path_n[MAX_NUMBER_GATES_STAGE];
	double width_nand3_path_p[MAX_NUMBER_GATES_STAGE];
	double delay_nand2_path;
	double delay_nand3_path;
	powerDef power_nand2_path;
	powerDef power_nand3_path;

	PredecBlk * blk;
	Decoder * dec;
	bool is_dram_;
	int way_select;

	void compute_widths();
	void compute_area();

	void leakage_feedback(double temperature);


	pair<double, double> compute_delays(
	double inrisetime_nand2_path,
	double inrisetime_nand3_path); // return <outrise_nand2, outrise_nand3>

	inline int num_addr_bits_nand2_path() {
	return num_buffers_driving_1_nand2_load +
	num_buffers_driving_2_nand2_load +
	num_buffers_driving_4_nand2_load;
	}
	inline int num_addr_bits_nand3_path() {
	return num_buffers_driving_2_nand3_load +
	num_buffers_driving_8_nand3_load;
	}
	double get_rdOp_dynamic_E(int num_act_mats_hor_dir);
	};



	class Predec : public Component {
	public:
	Predec(
	PredecBlkDrv * drv1,
	PredecBlkDrv * drv2);

	double compute_delays(double inrisetime); // return outrisetime

	void leakage_feedback(double temperature);
	PredecBlk * blk1;
	PredecBlk * blk2;
	PredecBlkDrv * drv1;
	PredecBlkDrv * drv2;

	powerDef block_power;
	powerDef driver_power;

	private:
	// returns <delay, risetime>
	pair<double, double> get_max_delay_before_decoder(
	pair<double, double> input_pair1,
	pair<double, double> input_pair2);
	};



	class Driver : public Component {
	public:
	Driver(double c_gate_load_, double c_wire_load_, double r_wire_load_, bool is_dram);

	int number_gates;
	int min_number_gates;
	double width_n[MAX_NUMBER_GATES_STAGE];
	double width_p[MAX_NUMBER_GATES_STAGE];
	double c_gate_load;
	double c_wire_load;
	double r_wire_load;
	double delay;
	powerDef power;
	bool is_dram_;

	void compute_widths();
	double compute_delay(double inrisetime);
	};


	#endif