OpenASIP  2.0
CompiledSimulation.icc
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1 /*
2  Copyright (c) 2002-2009 Tampere University.
3 
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24 /**
25  * @file CompiledSimulation.icc
26  *
27  * Inline definitions of CompiledSimulation class.
28  *
29  * @author Viljami Korhonen 2007 (viljami.korhonen-no.spam-tut.fi)
30  * @author Pekka Jääskeläinen 2009 (pekka.jaaskelainen-no.spam-tut.fi)
31  * @note rating: red
32  */
33 
34 #include "Application.hh"
35 
36 /**
37  * Adds a SimValue to the FU's results list.
38  *
39  * Used to simulate the FU latency.
40  *
41  * @param results The FU results list
42  * @param cycleCount # of cycles at the time of the addition
43  * @param value value to be added
44  * @param latency Latency of the FU
45  */
46 void inline
47 CompiledSimulation::addFUResult(
48  FUResultType& results,
49  ClockCycleCount cycleCount,
50  const SimValue& value,
51  int latency) {
52 
53  int oldResultIndex = -1;
54 
55  // Find the next empty slot and put the result there
56  for (int i = 0; i < results.size; ++i) {
57  FUResultElementType& result = results.data[i];
58 
59  // clear overwritten results to make room for the ringbuffer.
60  if (result.used) {
61  // result ready
62  if (result.cycles <= cycleCount) {
63  // first old result
64  if (oldResultIndex == -1) {
65  oldResultIndex = i;
66  } else {
67  FUResultElementType& oldResult =
68  results.data[oldResultIndex];
69  if (oldResult.cycles < result.cycles) {
70  // use the space of the old result for the new one.
71  oldResult.cycles = cycleCount + latency;
72  oldResult.value = value;
73  oldResult.used = true;
74  return;
75  } else {
76  result.used = false;
77  results.numberOfElements--;
78  }
79  }
80  }
81  }
82  if (!result.used) {
83  result.cycles = cycleCount + latency;
84  result.value = value;
85  result.used = true;
86  results.numberOfElements++;
87  return;
88  }
89  }
90  assert(0 && "Ringbuffer full!");
91 }
92 
93 /**
94  * Adds a UIntWord value to the FU's results.
95  *
96  * Used to simulate the FU latency.
97  *
98  * @param results The FU results list
99  * @param cycleCount # of cycles at the time of the addition
100  * @param value value to be added
101  * @param latency Latency of the FU
102  */
103 void inline
104 CompiledSimulation::addFUResult(
105  FUResultType& results,
106  ClockCycleCount cycleCount,
107  const UIntWord& value,
108  int latency) {
109 
110  int oldResultIndex = -1;
111 
112  // Find the next empty slot and put the result there
113  for (int i = 0; i < results.size; ++i) {
114  FUResultElementType& result = results.data[i];
115 
116  // clear overwritten results to make room for the ringbuffer.
117  if (result.used) {
118  // result ready
119  if (result.cycles <= cycleCount) {
120  // first old result
121  if (oldResultIndex == -1) {
122  oldResultIndex = i;
123  } else {
124  FUResultElementType& oldResult =
125  results.data[oldResultIndex];
126  if (oldResult.cycles < result.cycles) {
127  // use the space of the old result for the new one.
128  oldResult.cycles = cycleCount + latency;
129  oldResult.value = value;
130  oldResult.used = true;
131  return;
132  } else {
133  result.used = false;
134  results.numberOfElements--;
135  }
136  }
137  }
138  }
139 
140  if (!result.used) {
141  result.cycles = cycleCount + latency;
142  result.value = value;
143  result.used = true;
144  results.numberOfElements++;
145  return;
146  }
147  }
148  assert(0 && "Ringbuffer full!");
149 }
150 
151 
152 /**
153  * Grabs the current value from the FU results list.
154  *
155  * The current value is computed using the current cycle count,
156  * discarding "too old" (overwritten) results.
157  *
158  * @param target Target of the assignment.
159  * @param results The FU results to be checked for.
160  * @param cycles The current cyclecount.
161  */
162 void inline
163 CompiledSimulation::FUResult(
164  SimValue& target, FUResultType& results, ClockCycleCount cycles) {
165 
166  int maxDiff = -2147483647;
167 
168  for (int i = 0; results.numberOfElements != 0 && i < results.size; ++i) {
169  FUResultElementType& result = results.data[i];
170 
171  if (!result.used) {
172  continue;
173  }
174 
175  int diff = static_cast<int>(result.cycles - cycles);
176  if (diff <= 0) {
177  if (diff >= maxDiff) {
178  maxDiff = diff;
179  target = result.value;
180  }
181  result.used = false;
182  results.numberOfElements--;
183  } else {
184  //i++;
185  }
186  }
187 }
188 
189 void inline
190 CompiledSimulation::clearFUResults(FUResultType& results) {
191 
192  if (results.numberOfElements == 0) {
193  return;
194  }
195 
196  for (int i = 0; i < results.size; ++i) {
197  results.data[i].used = false;
198  }
199  results.numberOfElements = 0;
200 }
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