Lines Matching refs:state
158 #### state time values ####
165 # Now grab the state, i.e. 'ACT'
166 state = statistic.split('::')[1]
168 results[delay][bank_util][seq_bytes][state] = \
170 #### state energy values ####
176 state = StatToKey[statistic]
178 results[delay][bank_util][seq_bytes][state] = senergy
187 # Now grab the state energy, .e.g 'ACT'
188 state = statistic.split('::')[1]
189 idleResults[state] = int(stime)
190 if state == 'ACT_PDN':
201 'Time (ps) spent in a power state')
204 'Energy (pJ) of a power state')
220 ax.set_ylabel('Time (ps) spent in a power state')
233 @param states_list: list of either time or energy state names
254 state = bottom_state
256 l_states[state] = map(lambda x: results[delay][bank_util][x][state],
258 p_states[state] = ax[sub_idx].bar(ind, l_states[state], width,
259 color=StackColors[state])
261 time_sum = l_states[state]
262 for state in states_list[1:]:
263 l_states[state] = map(lambda x:
264 results[delay][bank_util][x][state],
267 p_states[state] = ax[sub_idx].bar(ind, l_states[state], width,
268 color=StackColors[state],
273 zip(time_sum, l_states[state])]
297 return (plot_dir + 'state-time.eps')
300 return (plot_dir + 'state-energy.eps')