1/***************************************************************************** 2 * McPAT 3 * SOFTWARE LICENSE AGREEMENT 4 * Copyright 2012 Hewlett-Packard Development Company, L.P.
|
5 * Copyright (c) 2010-2013 Advanced Micro Devices, Inc. |
6 * All Rights Reserved 7 * 8 * Redistribution and use in source and binary forms, with or without 9 * modification, are permitted provided that the following conditions are 10 * met: redistributions of source code must retain the above copyright 11 * notice, this list of conditions and the following disclaimer; 12 * redistributions in binary form must reproduce the above copyright 13 * notice, this list of conditions and the following disclaimer in the
--- 7 unchanged lines hidden (view full) ---
21 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 22 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 23 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 24 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 25 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 26 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 27 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 28 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
|
28 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.”
|
29 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
30 * 31 ***************************************************************************/ 32 33#include <algorithm> 34#include <cassert> 35#include <cmath> 36#include <iostream> 37#include <string> 38
|
38#include "XML_Parse.h"
|
39#include "basic_circuit.h"
|
40#include "common.h" |
41#include "const.h" 42#include "io.h" 43#include "noc.h" 44#include "parameter.h" 45
|
45NoC::NoC(ParseXML *XML_interface, int ithNoC_, InputParameter* interface_ip_, double M_traffic_pattern_, double link_len_)
46:XML(XML_interface),
47ithNoC(ithNoC_),
48interface_ip(*interface_ip_),
49router(0),
50link_bus(0),
51link_bus_exist(false),
52router_exist(false),
53M_traffic_pattern(M_traffic_pattern_)
54{
55 /*
56 * initialize, compute and optimize individual components.
57 */
|
46OnChipNetwork::OnChipNetwork(XMLNode* _xml_data, int ithNoC_, 47 InputParameter* interface_ip_) 48 : McPATComponent(_xml_data), router(NULL), link_bus(NULL), ithNoC(ithNoC_), 49 interface_ip(*interface_ip_), link_bus_exist(false), 50 router_exist(false) { 51 name = "On-Chip Network"; 52 set_param_stats(); 53 local_result = init_interface(&interface_ip, name); 54 scktRatio = g_tp.sckt_co_eff; |
55
|
59 if (XML->sys.Embedded)
60 {
61 interface_ip.wt =Global_30;
62 interface_ip.wire_is_mat_type = 0;
63 interface_ip.wire_os_mat_type = 1;
64 }
65 else
66 {
67 interface_ip.wt =Global;
68 interface_ip.wire_is_mat_type = 2;
69 interface_ip.wire_os_mat_type = 2;
70 }
71 set_noc_param();
72 local_result=init_interface(&interface_ip);
73 scktRatio = g_tp.sckt_co_eff;
74
75 if (nocdynp.type)
76 {/*
77 * if NOC compute router, router links must be computed separately
78 * and called from external
79 * since total chip area must be known first
80 */
81 init_router();
82 }
83 else
84 {
85 init_link_bus(link_len_); //if bus compute bus
86 }
87
88 // //clock power
89 // clockNetwork.init_wire_external(is_default, &interface_ip);
90 // clockNetwork.clk_area =area*1.1;//10% of placement overhead. rule of thumb
91 // clockNetwork.end_wiring_level =5;//toplevel metal
92 // clockNetwork.start_wiring_level =5;//toplevel metal
93 // clockNetwork.num_regs = corepipe.tot_stage_vector;
94 // clockNetwork.optimize_wire();
|
56 // TODO: Routers and links should be children of the NOC component 57 if (noc_params.type) { 58 init_router(); 59 } else { 60 init_link_bus(); 61 } |
62} 63
|
97void NoC::init_router()
98{
99 router = new Router(nocdynp.flit_size,
100 nocdynp.virtual_channel_per_port*nocdynp.input_buffer_entries_per_vc,
101 nocdynp.virtual_channel_per_port, &(g_tp.peri_global),
102 nocdynp.input_ports,nocdynp.output_ports, M_traffic_pattern);
103 //router->print_router();
104 area.set_area(area.get_area()+ router->area.get_area()*nocdynp.total_nodes);
|
64void OnChipNetwork::init_router() { 65 router = new Router(noc_params.flit_size, 66 noc_params.virtual_channel_per_port * 67 noc_params.input_buffer_entries_per_vc, 68 noc_params.virtual_channel_per_port, 69 &(g_tp.peri_global), 70 noc_params.input_ports, noc_params.output_ports, 71 noc_params.M_traffic_pattern); 72 // TODO: Make a router class within McPAT that descends from McPATComponent 73 // children.push_back(router); 74 area.set_area(area.get_area() + router->area.get_area() * 75 noc_params.total_nodes); |
76
|
106 double long_channel_device_reduction = longer_channel_device_reduction(Uncore_device);
107 router->power.readOp.longer_channel_leakage = router->power.readOp.leakage * long_channel_device_reduction;
108 router->buffer.power.readOp.longer_channel_leakage = router->buffer.power.readOp.leakage * long_channel_device_reduction;
109 router->crossbar.power.readOp.longer_channel_leakage = router->crossbar.power.readOp.leakage * long_channel_device_reduction;
110 router->arbiter.power.readOp.longer_channel_leakage = router->arbiter.power.readOp.leakage * long_channel_device_reduction;
111 router_exist = true;
|
77 double long_channel_device_reduction = longer_channel_device_reduction(Uncore_device); 78 router->power.readOp.longer_channel_leakage = router->power.readOp.leakage * long_channel_device_reduction; 79 router->buffer.power.readOp.longer_channel_leakage = router->buffer.power.readOp.leakage * long_channel_device_reduction; 80 router->crossbar.power.readOp.longer_channel_leakage = router->crossbar.power.readOp.leakage * long_channel_device_reduction; 81 router->arbiter.power.readOp.longer_channel_leakage = router->arbiter.power.readOp.leakage * long_channel_device_reduction; 82 router_exist = true; |
83} 84
|
114void NoC ::init_link_bus(double link_len_)
115{
|
85void OnChipNetwork::init_link_bus() { 86 if (noc_params.type) { 87 link_name = "Links"; 88 } else { 89 link_name = "Bus"; 90 } |
91
|
92 interface_ip.throughput = noc_params.link_throughput / 93 noc_params.clockRate; 94 interface_ip.latency = noc_params.link_latency / noc_params.clockRate; |
95
|
118// if (nocdynp.min_ports==1 )
119 if (nocdynp.type)
120 link_name = "Links";
121 else
122 link_name = "Bus";
|
96 link_len /= (noc_params.horizontal_nodes + noc_params.vertical_nodes) / 2; |
97
|
124 link_len=link_len_;
125 assert(link_len>0);
|
98 if (noc_params.total_nodes > 1) { 99 //All links are shared by neighbors 100 link_len /= 2; 101 } 102 link_bus = new Interconnect(xml_data, "Link", Uncore_device, 103 noc_params.link_base_width, 104 noc_params.link_base_height, 105 noc_params.flit_size, link_len, &interface_ip, 106 noc_params.link_start_wiring_level, 107 noc_params.clockRate, true/*pipelinable*/, 108 noc_params.route_over_perc); 109 children.push_back(link_bus); |
110
|
127 interface_ip.throughput = nocdynp.link_throughput/nocdynp.clockRate;
128 interface_ip.latency = nocdynp.link_latency/nocdynp.clockRate;
129
130 link_len /= (nocdynp.horizontal_nodes + nocdynp.vertical_nodes)/2;
131
132 if (nocdynp.total_nodes >1) link_len /=2; //All links are shared by neighbors
133 link_bus = new interconnect(name, Uncore_device, 1, 1, nocdynp.flit_size,
134 link_len, &interface_ip, 3, true/*pipelinable*/, nocdynp.route_over_perc);
135
136 link_bus_tot_per_Router.area.set_area(link_bus_tot_per_Router.area.get_area()+ link_bus->area.get_area()
137 * nocdynp.global_linked_ports);
138
139 area.set_area(area.get_area()+ link_bus_tot_per_Router.area.get_area()* nocdynp.total_nodes);
140 link_bus_exist = true;
|
111 link_bus_exist = true; |
112}
|
142void NoC::computeEnergy(bool is_tdp)
143{
144 //power_point_product_masks
145 double pppm_t[4] = {1,1,1,1};
146 double M=nocdynp.duty_cycle;
147 if (is_tdp)
148 {
149 //init stats for TDP
150 stats_t.readAc.access = M;
151 tdp_stats = stats_t;
152 if (router_exist)
153 {
154 set_pppm(pppm_t, 1*M, 1, 1, 1);//reset traffic pattern
155 router->power = router->power*pppm_t;
156 set_pppm(pppm_t, nocdynp.total_nodes, nocdynp.total_nodes, nocdynp.total_nodes, nocdynp.total_nodes);
157 power = power + router->power*pppm_t;
158 }
159 if (link_bus_exist)
160 {
161 if (nocdynp.type)
162 set_pppm(pppm_t, 1*M_traffic_pattern*M*(nocdynp.min_ports -1), nocdynp.global_linked_ports,
163 nocdynp.global_linked_ports, nocdynp.global_linked_ports);
164 //reset traffic pattern; local port do not have router links
165 else
166 set_pppm(pppm_t, 1*M_traffic_pattern*M*(nocdynp.min_ports), nocdynp.global_linked_ports,
167 nocdynp.global_linked_ports, nocdynp.global_linked_ports);//reset traffic pattern
|
113
|
169 link_bus_tot_per_Router.power = link_bus->power*pppm_t;
|
114// TODO: This should use the McPATComponent::computeEnergy function to 115// recursively calculate energy of routers and links and then add 116void OnChipNetwork::computeEnergy() { 117 double pppm_t[4] = {1, 1, 1, 1}; |
118
|
171 set_pppm(pppm_t, nocdynp.total_nodes,
172 nocdynp.total_nodes,
173 nocdynp.total_nodes,
174 nocdynp.total_nodes);
175 power = power + link_bus_tot_per_Router.power*pppm_t;
|
119 // Initialize stats for TDP 120 tdp_stats.reset(); 121 tdp_stats.readAc.access = noc_stats.duty_cycle; 122 if (router_exist) { 123 // TODO: Define a regression to exercise routers 124 // TODO: Clean this up: it is too invasive and breaks abstraction 125 set_pppm(pppm_t, 1 * tdp_stats.readAc.access, 1, 1, 1); 126 router->power = router->power * pppm_t; 127 set_pppm(pppm_t, noc_params.total_nodes, 128 noc_params.total_nodes, 129 noc_params.total_nodes, 130 noc_params.total_nodes); 131 } 132 if (link_bus_exist) { 133 if (noc_params.type) { 134 link_bus->int_params.active_ports = noc_params.min_ports - 1; 135 } else { 136 link_bus->int_params.active_ports = noc_params.min_ports; 137 } 138 link_bus->int_stats.duty_cycle = 139 noc_params.M_traffic_pattern * noc_stats.duty_cycle; |
140
|
177 }
178 }
179 else
180 {
181 //init stats for runtime power (RTP)
182 stats_t.readAc.access = XML->sys.NoC[ithNoC].total_accesses;
183 rtp_stats = stats_t;
184 set_pppm(pppm_t, 1, 0 , 0, 0);
185 if (router_exist)
186 {
187 router->buffer.rt_power.readOp.dynamic = (router->buffer.power.readOp.dynamic + router->buffer.power.writeOp.dynamic)*rtp_stats.readAc.access ;
188 router->crossbar.rt_power.readOp.dynamic = router->crossbar.power.readOp.dynamic*rtp_stats.readAc.access ;
189 router->arbiter.rt_power.readOp.dynamic = router->arbiter.power.readOp.dynamic*rtp_stats.readAc.access ;
|
141 // TODO: Decide how to roll multiple routers into a single top-level 142 // NOC module. I would prefer not to, but it might be a nice feature 143 set_pppm(pppm_t, noc_params.total_nodes, 144 noc_params.total_nodes, 145 noc_params.total_nodes, 146 noc_params.total_nodes); 147 } |
148
|
191 router->rt_power = router->rt_power + (router->buffer.rt_power + router->crossbar.rt_power + router->arbiter.rt_power)*pppm_t +
192 router->power*pppm_lkg;//TDP power must be calculated first!
193 rt_power = rt_power + router->rt_power;
194 }
195 if (link_bus_exist)
196 {
197 set_pppm(pppm_t, rtp_stats.readAc.access, 1 , 1, rtp_stats.readAc.access);
198 link_bus->rt_power = link_bus->power * pppm_t;
199 rt_power = rt_power + link_bus->rt_power;
200 }
|
149 // Initialize stats for runtime energy and power 150 rtp_stats.reset(); 151 rtp_stats.readAc.access = noc_stats.total_access; 152 set_pppm(pppm_t, 1, 0 , 0, 0); 153 if (router_exist) { 154 // TODO: Move this to a McPATComponent parent class of Router 155 router->buffer.rt_power.readOp.dynamic = 156 (router->buffer.power.readOp.dynamic + 157 router->buffer.power.writeOp.dynamic) * rtp_stats.readAc.access; 158 router->crossbar.rt_power.readOp.dynamic = 159 router->crossbar.power.readOp.dynamic * rtp_stats.readAc.access; 160 router->arbiter.rt_power.readOp.dynamic = 161 router->arbiter.power.readOp.dynamic * rtp_stats.readAc.access; |
162
|
202 }
|
163 router->rt_power = router->rt_power + 164 (router->buffer.rt_power + router->crossbar.rt_power + 165 router->arbiter.rt_power) * pppm_t + 166 router->power * pppm_lkg;//TDP power must be calculated first! 167 } 168 if (link_bus_exist) { 169 link_bus->int_stats.accesses = noc_stats.total_access; 170 } 171 172 // Recursively compute energy 173 McPATComponent::computeEnergy(); |
174} 175
|
176void OnChipNetwork::set_param_stats() { 177 // TODO: Remove this or move initialization elsewhere 178 memset(&noc_params, 0, sizeof(OnChipNetworkParameters)); |
179
|
206void NoC::displayEnergy(uint32_t indent,int plevel,bool is_tdp)
207{
208 string indent_str(indent, ' ');
209 string indent_str_next(indent+2, ' ');
210 bool long_channel = XML->sys.longer_channel_device;
|
180 int num_children = xml_data->nChildNode("param"); 181 int i; 182 int mat_type; 183 for (i = 0; i < num_children; i++) { 184 XMLNode* paramNode = xml_data->getChildNodePtr("param", &i); 185 XMLCSTR node_name = paramNode->getAttribute("name"); 186 XMLCSTR value = paramNode->getAttribute("value"); |
187
|
212 double M =M_traffic_pattern*nocdynp.duty_cycle;
213 /*only router as a whole has been applied the M_traffic_pattern(0.6 by default) factor in router.cc;
214 * When power of crossbars, arbiters, etc need to be displayed, the M_traffic_pattern factor need to
215 * be applied together with McPAT's extra traffic pattern.
216 * */
217 if (is_tdp)
218 {
219 cout << name << endl;
220 cout << indent_str << "Area = " << area.get_area()*1e-6<< " mm^2" << endl;
221 cout << indent_str<< "Peak Dynamic = " << power.readOp.dynamic*nocdynp.clockRate << " W" << endl;
222 cout << indent_str << "Subthreshold Leakage = "
223 << (long_channel? power.readOp.longer_channel_leakage:power.readOp.leakage) <<" W" << endl;
224 cout << indent_str << "Gate Leakage = " << power.readOp.gate_leakage << " W" << endl;
225 cout << indent_str<< "Runtime Dynamic = " << rt_power.readOp.dynamic/nocdynp.executionTime << " W" << endl;
226 cout<<endl;
|
188 if (!node_name) 189 warnMissingParamName(paramNode->getAttribute("id")); |
190
|
228 if (router_exist)
229 {
230 cout << indent_str << "Router: " << endl;
231 cout << indent_str_next << "Area = " << router->area.get_area()*1e-6<< " mm^2" << endl;
232 cout << indent_str_next<< "Peak Dynamic = " << router->power.readOp.dynamic*nocdynp.clockRate << " W" << endl;
233 cout << indent_str_next << "Subthreshold Leakage = "
234 << (long_channel? router->power.readOp.longer_channel_leakage:router->power.readOp.leakage) <<" W" << endl;
235 cout << indent_str_next << "Gate Leakage = " << router->power.readOp.gate_leakage << " W" << endl;
236 cout << indent_str_next<< "Runtime Dynamic = " << router->rt_power.readOp.dynamic/nocdynp.executionTime << " W" << endl;
237 cout<<endl;
238 if (plevel >2){
239 cout << indent_str<< indent_str << "Virtual Channel Buffer:" << endl;
240 cout << indent_str<< indent_str_next << "Area = " << router->buffer.area.get_area()*1e-6*nocdynp.input_ports<< " mm^2" << endl;
241 cout << indent_str<< indent_str_next << "Peak Dynamic = " <<(router->buffer.power.readOp.dynamic + router->buffer.power.writeOp.dynamic)
242 *nocdynp.min_ports*M*nocdynp.clockRate << " W" << endl;
243 cout << indent_str<< indent_str_next << "Subthreshold Leakage = "
244 << (long_channel? router->buffer.power.readOp.longer_channel_leakage*nocdynp.input_ports:router->buffer.power.readOp.leakage*nocdynp.input_ports) <<" W" << endl;
245 cout << indent_str<< indent_str_next << "Gate Leakage = " << router->buffer.power.readOp.gate_leakage*nocdynp.input_ports << " W" << endl;
246 cout << indent_str<< indent_str_next << "Runtime Dynamic = " << router->buffer.rt_power.readOp.dynamic/nocdynp.executionTime << " W" << endl;
247 cout <<endl;
248 cout << indent_str<< indent_str<< "Crossbar:" << endl;
249 cout << indent_str<< indent_str_next << "Area = " << router->crossbar.area.get_area()*1e-6 << " mm^2" << endl;
250 cout << indent_str<< indent_str_next << "Peak Dynamic = " << router->crossbar.power.readOp.dynamic*nocdynp.clockRate*nocdynp.min_ports*M << " W" << endl;
251 cout << indent_str<< indent_str_next << "Subthreshold Leakage = "
252 << (long_channel? router->crossbar.power.readOp.longer_channel_leakage:router->crossbar.power.readOp.leakage) << " W" << endl;
253 cout << indent_str<< indent_str_next << "Gate Leakage = " << router->crossbar.power.readOp.gate_leakage << " W" << endl;
254 cout << indent_str<< indent_str_next << "Runtime Dynamic = " << router->crossbar.rt_power.readOp.dynamic/nocdynp.executionTime << " W" << endl;
255 cout <<endl;
256 cout << indent_str<< indent_str<< "Arbiter:" << endl;
257 cout << indent_str<< indent_str_next << "Peak Dynamic = " << router->arbiter.power.readOp.dynamic*nocdynp.clockRate*nocdynp.min_ports*M << " W" << endl;
258 cout << indent_str<< indent_str_next << "Subthreshold Leakage = "
259 << (long_channel? router->arbiter.power.readOp.longer_channel_leakage:router->arbiter.power.readOp.leakage) << " W" << endl;
260 cout << indent_str<< indent_str_next << "Gate Leakage = " << router->arbiter.power.readOp.gate_leakage << " W" << endl;
261 cout << indent_str<< indent_str_next << "Runtime Dynamic = " << router->arbiter.rt_power.readOp.dynamic/nocdynp.executionTime << " W" << endl;
262 cout <<endl;
263 }
264 }
265 if (link_bus_exist)
266 {
267 cout << indent_str << (nocdynp.type? "Per Router ":"") << link_name<<": " << endl;
268 cout << indent_str_next << "Area = " << link_bus_tot_per_Router.area.get_area()*1e-6<< " mm^2" << endl;
269 cout << indent_str_next<< "Peak Dynamic = " << link_bus_tot_per_Router.power.readOp.dynamic*
270 nocdynp.clockRate << " W" << endl;
271 cout << indent_str_next << "Subthreshold Leakage = "
272 << (long_channel? link_bus_tot_per_Router.power.readOp.longer_channel_leakage:link_bus_tot_per_Router.power.readOp.leakage)
273 <<" W" << endl;
274 cout << indent_str_next << "Gate Leakage = " << link_bus_tot_per_Router.power.readOp.gate_leakage
275 << " W" << endl;
276 cout << indent_str_next<< "Runtime Dynamic = " << link_bus->rt_power.readOp.dynamic/nocdynp.executionTime << " W" << endl;
277 cout<<endl;
|
191 ASSIGN_INT_IF("type", noc_params.type); 192 ASSIGN_FP_IF("clockrate", noc_params.clockRate); 193 ASSIGN_INT_IF("flit_bits", noc_params.flit_size); 194 ASSIGN_FP_IF("link_len", link_len); 195 ASSIGN_FP_IF("link_throughput", noc_params.link_throughput); 196 ASSIGN_FP_IF("link_latency", noc_params.link_latency); 197 ASSIGN_INT_IF("input_ports", noc_params.input_ports); 198 ASSIGN_INT_IF("output_ports", noc_params.output_ports); 199 ASSIGN_INT_IF("global_linked_ports", noc_params.global_linked_ports); 200 ASSIGN_INT_IF("horizontal_nodes", noc_params.horizontal_nodes); 201 ASSIGN_INT_IF("vertical_nodes", noc_params.vertical_nodes); 202 ASSIGN_FP_IF("chip_coverage", noc_params.chip_coverage); 203 ASSIGN_FP_IF("link_routing_over_percentage", 204 noc_params.route_over_perc); 205 ASSIGN_INT_IF("has_global_link", noc_params.has_global_link); 206 ASSIGN_INT_IF("virtual_channel_per_port", 207 noc_params.virtual_channel_per_port); 208 ASSIGN_INT_IF("input_buffer_entries_per_vc", 209 noc_params.input_buffer_entries_per_vc); 210 ASSIGN_FP_IF("M_traffic_pattern", noc_params.M_traffic_pattern); 211 ASSIGN_FP_IF("link_base_width", noc_params.link_base_width); 212 ASSIGN_FP_IF("link_base_height", noc_params.link_base_height); 213 ASSIGN_INT_IF("link_start_wiring_level", 214 noc_params.link_start_wiring_level); 215 ASSIGN_INT_IF("wire_mat_type", mat_type); 216 ASSIGN_ENUM_IF("wire_type", interface_ip.wt, Wire_type); |
217
|
279 }
|
218 else { 219 warnUnrecognizedParam(node_name); |
220 }
|
281 else
282 {
283// cout << indent_str_next << "Instruction Fetch Unit Peak Dynamic = " << ifu->rt_power.readOp.dynamic*clockRate << " W" << endl;
284// cout << indent_str_next << "Instruction Fetch Unit Subthreshold Leakage = " << ifu->rt_power.readOp.leakage <<" W" << endl;
285// cout << indent_str_next << "Instruction Fetch Unit Gate Leakage = " << ifu->rt_power.readOp.gate_leakage << " W" << endl;
286// cout << indent_str_next << "Load Store Unit Peak Dynamic = " << lsu->rt_power.readOp.dynamic*clockRate << " W" << endl;
287// cout << indent_str_next << "Load Store Unit Subthreshold Leakage = " << lsu->rt_power.readOp.leakage << " W" << endl;
288// cout << indent_str_next << "Load Store Unit Gate Leakage = " << lsu->rt_power.readOp.gate_leakage << " W" << endl;
289// cout << indent_str_next << "Memory Management Unit Peak Dynamic = " << mmu->rt_power.readOp.dynamic*clockRate << " W" << endl;
290// cout << indent_str_next << "Memory Management Unit Subthreshold Leakage = " << mmu->rt_power.readOp.leakage << " W" << endl;
291// cout << indent_str_next << "Memory Management Unit Gate Leakage = " << mmu->rt_power.readOp.gate_leakage << " W" << endl;
292// cout << indent_str_next << "Execution Unit Peak Dynamic = " << exu->rt_power.readOp.dynamic*clockRate << " W" << endl;
293// cout << indent_str_next << "Execution Unit Subthreshold Leakage = " << exu->rt_power.readOp.leakage << " W" << endl;
294// cout << indent_str_next << "Execution Unit Gate Leakage = " << exu->rt_power.readOp.gate_leakage << " W" << endl;
295 }
296}
|
221 } |
222
|
298void NoC::set_noc_param()
299{
|
223 // Change from MHz to Hz 224 noc_params.clockRate *= 1e6; |
225
|
301 nocdynp.type = XML->sys.NoC[ithNoC].type;
302 nocdynp.clockRate =XML->sys.NoC[ithNoC].clockrate;
303 nocdynp.clockRate *= 1e6;
304 nocdynp.executionTime = XML->sys.total_cycles/(XML->sys.target_core_clockrate*1e6);
|
226 interface_ip.wire_is_mat_type = mat_type; 227 interface_ip.wire_os_mat_type = mat_type; |
228
|
306 nocdynp.flit_size = XML->sys.NoC[ithNoC].flit_bits;
307 if (nocdynp.type)
308 {
309 nocdynp.input_ports = XML->sys.NoC[ithNoC].input_ports;
310 nocdynp.output_ports = XML->sys.NoC[ithNoC].output_ports;//later minus 1
311 nocdynp.min_ports = min(nocdynp.input_ports,nocdynp.output_ports);
312 nocdynp.global_linked_ports = (nocdynp.input_ports-1) + (nocdynp.output_ports-1);
313 /*
314 * Except local i/o ports, all ports needs links( global_linked_ports);
315 * However only min_ports can be fully active simultaneously
316 * since the fewer number of ports (input or output ) is the bottleneck.
317 */
318 }
319 else
320 {
321 nocdynp.input_ports = 1;
322 nocdynp.output_ports = 1;
323 nocdynp.min_ports = min(nocdynp.input_ports,nocdynp.output_ports);
324 nocdynp.global_linked_ports = 1;
325 }
|
229 num_children = xml_data->nChildNode("stat"); 230 for (i = 0; i < num_children; i++) { 231 XMLNode* statNode = xml_data->getChildNodePtr("stat", &i); 232 XMLCSTR node_name = statNode->getAttribute("name"); 233 XMLCSTR value = statNode->getAttribute("value"); |
234
|
327 nocdynp.virtual_channel_per_port = XML->sys.NoC[ithNoC].virtual_channel_per_port;
328 nocdynp.input_buffer_entries_per_vc = XML->sys.NoC[ithNoC].input_buffer_entries_per_vc;
|
235 if (!node_name) 236 warnMissingStatName(statNode->getAttribute("id")); |
237
|
330 nocdynp.horizontal_nodes = XML->sys.NoC[ithNoC].horizontal_nodes;
331 nocdynp.vertical_nodes = XML->sys.NoC[ithNoC].vertical_nodes;
332 nocdynp.total_nodes = nocdynp.horizontal_nodes*nocdynp.vertical_nodes;
333 nocdynp.duty_cycle = XML->sys.NoC[ithNoC].duty_cycle;
334 nocdynp.has_global_link = XML->sys.NoC[ithNoC].has_global_link;
335 nocdynp.link_throughput = XML->sys.NoC[ithNoC].link_throughput;
336 nocdynp.link_latency = XML->sys.NoC[ithNoC].link_latency;
337 nocdynp.chip_coverage = XML->sys.NoC[ithNoC].chip_coverage;
338 nocdynp.route_over_perc = XML->sys.NoC[ithNoC].route_over_perc;
|
238 ASSIGN_FP_IF("duty_cycle", noc_stats.duty_cycle); 239 ASSIGN_FP_IF("total_accesses", noc_stats.total_access); |
240
|
340 assert (nocdynp.chip_coverage <=1);
341 assert (nocdynp.route_over_perc <=1);
|
241 else { 242 warnUnrecognizedStat(node_name); 243 } 244 } |
245
|
343 if (nocdynp.type)
344 name = "NOC";
345 else
346 name = "BUSES";
|
246 clockRate = noc_params.clockRate; 247 noc_params.min_ports = 248 min(noc_params.input_ports, noc_params.output_ports); 249 if (noc_params.type) { 250 noc_params.global_linked_ports = (noc_params.input_ports - 1) + 251 (noc_params.output_ports - 1); 252 } 253 noc_params.total_nodes = 254 noc_params.horizontal_nodes * noc_params.vertical_nodes; |
255
|
256 assert(noc_params.chip_coverage <= 1); 257 assert(noc_params.route_over_perc <= 1); 258 assert(link_len > 0); |
259} 260
|
261OnChipNetwork ::~OnChipNetwork() { |
262
|
351NoC ::~NoC(){
352
353 if(router) {delete router; router = 0;}
354 if(link_bus) {delete link_bus; link_bus = 0;}
|
263 if (router) { 264 delete router; 265 router = 0; 266 } 267 if (link_bus) { 268 delete link_bus; 269 link_bus = 0; 270 } |
271}
|