Power Efficiency Diagnostics ReportComputer Name USER-PCScan Time 2017-04-

1. Power Efficiency Diagnostics Report
2.  
3. Computer Name USER-PC
4. Scan Time 2017-04-14T04:54:36Z
5. Scan Duration 60 seconds
6. System Manufacturer ASUSTeK Computer Inc.
7. System Product Name N61Jq
8. BIOS Date 08/17/2010
9. BIOS Version N61Jq.212
10. OS Build 7601
11. Platform Role PlatformRoleMobile
12. Plugged In true
13. Process Count 67
14. Thread Count 1009
15. Report GUID {9aba2efb-c2ba-4efa-8ed8-83c1484052f9}
16. Analysis Results
17.  
18. Errors
19.  
20. Power Policy:Sleep timeout is disabled (Plugged In)
21. The computer is not configured to automatically sleep after a period of inactivity.
22. System Availability Requests:System Required Request
23. The device or driver has made a request to prevent the system from automatically entering sleep.
24. Requesting Driver Instance Root\MEDIA\0000
25. Requesting Driver Device VB-Audio Virtual Cable
26. System Availability Requests:System Required Request
27. The device or driver has made a request to prevent the system from automatically entering sleep.
28. Requesting Driver Instance HDAUDIO\FUNC_01&VEN_10EC&DEV_0269&SUBSYS_104313D3&REV_1000\4&26c332eb&0&0001
29. Requesting Driver Device High Definition Audio Device
30. USB Suspend:USB Device not Entering Suspend
31. The USB device did not enter the Suspend state. Processor power management may be prevented if a USB device does not enter the Suspend state when not in use.
32. Device Name USB Root Hub
33. Host Controller ID PCI\VEN_8086&DEV_3B34
34. Host Controller Location PCI bus 0, device 29, function 0
35. Device ID USB\VID_8086&PID_3B34
36. Port Path
37. USB Suspend:USB Device not Entering Suspend
38. The USB device did not enter the Suspend state. Processor power management may be prevented if a USB device does not enter the Suspend state when not in use.
39. Device Name Microsoft Mouse and Keyboard Detection Driver (USB)
40. Host Controller ID PCI\VEN_8086&DEV_3B34
41. Host Controller Location PCI bus 0, device 29, function 0
42. Device ID USB\VID_045E&PID_0745
43. Port Path 1,2
44. USB Suspend:USB Device not Entering Suspend
45. The USB device did not enter the Suspend state. Processor power management may be prevented if a USB device does not enter the Suspend state when not in use.
46. Device Name Generic USB Hub
47. Host Controller ID PCI\VEN_8086&DEV_3B34
48. Host Controller Location PCI bus 0, device 29, function 0
49. Device ID USB\VID_8087&PID_0020
50. Port Path 1
51. Platform Power Management Capabilities:ACPI _PSD Object Failed Validation
52. There is a problem with the definition of the ACPI _PSD object on this computer. Installing the latest system firmware (BIOS) may resolve this issue.
53. Group 0
54. Index 0
55. Platform Power Management Capabilities:ACPI _PSD Object Failed Validation
56. There is a problem with the definition of the ACPI _PSD object on this computer. Installing the latest system firmware (BIOS) may resolve this issue.
57. Group 0
58. Index 1
59. Platform Power Management Capabilities:ACPI _PSD Object Failed Validation
60. There is a problem with the definition of the ACPI _PSD object on this computer. Installing the latest system firmware (BIOS) may resolve this issue.
61. Group 0
62. Index 2
63. Platform Power Management Capabilities:ACPI _PSD Object Failed Validation
64. There is a problem with the definition of the ACPI _PSD object on this computer. Installing the latest system firmware (BIOS) may resolve this issue.
65. Group 0
66. Index 3
67. Platform Power Management Capabilities:ACPI _PSD Object Failed Validation
68. There is a problem with the definition of the ACPI _PSD object on this computer. Installing the latest system firmware (BIOS) may resolve this issue.
69. Group 0
70. Index 4
71. Platform Power Management Capabilities:ACPI _PSD Object Failed Validation
72. There is a problem with the definition of the ACPI _PSD object on this computer. Installing the latest system firmware (BIOS) may resolve this issue.
73. Group 0
74. Index 5
75. Platform Power Management Capabilities:ACPI _PSD Object Failed Validation
76. There is a problem with the definition of the ACPI _PSD object on this computer. Installing the latest system firmware (BIOS) may resolve this issue.
77. Group 0
78. Index 6
79. Platform Power Management Capabilities:ACPI _PSD Object Failed Validation
80. There is a problem with the definition of the ACPI _PSD object on this computer. Installing the latest system firmware (BIOS) may resolve this issue.
81. Group 0
82. Index 7
83. Platform Power Management Capabilities:PCI Express Active-State Power Management (ASPM) Disabled
84. PCI Express Active-State Power Management (ASPM) has been disabled due to a known incompatibility with the hardware in this computer.
85. Warnings
86.  
87. Platform Timer Resolution:Platform Timer Resolution
88. The default platform timer resolution is 15.6ms (15625000ns) and should be used whenever the system is idle. If the timer resolution is increased, processor power management technologies may not be effective. The timer resolution may be increased due to multimedia playback or graphical animations.
89. Current Timer Resolution (100ns units) 100000
90. Maximum Timer Period (100ns units) 156001
91. Platform Timer Resolution:Outstanding Timer Request
92. A program or service has requested a timer resolution smaller than the platform maximum timer resolution.
93. Requested Period 100000
94. Requesting Process ID 436
95. Requesting Process Path \Device\HarddiskVolume2\Windows\System32\svchost.exe
96. Power Policy:802.11 Radio Power Policy is Maximum Performance (Plugged In)
97. The current power policy for 802.11-compatible wireless network adapters is not configured to use low-power modes.
98. CPU Utilization:Processor utilization is moderate
99. The average processor utilization during the trace was moderate. The system will consume less power when the average processor utilization is very low. Review processor utilization for individual processes to determine which applications and services contribute the most to total processor utilization.
100. Average Utilization (%) 2.45
101. CPU Utilization:Individual process with significant processor utilization.
102. This process is responsible for a significant portion of the total processor utilization recorded during the trace.
103. Process Name audiodg.exe
104. PID 456
105. Average Utilization (%) 0.58
106. Module Average Module Utilization (%)
107. \Device\HarddiskVolume2\Windows\System32\AudioEng.dll 0.29
108. \SystemRoot\system32\hal.dll 0.10
109. \SystemRoot\system32\ntoskrnl.exe 0.09
110. CPU Utilization:Individual process with significant processor utilization.
111. This process is responsible for a significant portion of the total processor utilization recorded during the trace.
112. Process Name chrome.exe
113. PID 768
114. Average Utilization (%) 0.39
115. Module Average Module Utilization (%)
116. \Device\HarddiskVolume2\Program Files (x86)\Google\Chrome\Application\57.0.2987.133\chrome_child.dll 0.34
117. \SystemRoot\system32\ntoskrnl.exe 0.02
118. \Device\HarddiskVolume2\Windows\SysWOW64\ntdll.dll 0.01
119. CPU Utilization:Individual process with significant processor utilization.
120. This process is responsible for a significant portion of the total processor utilization recorded during the trace.
121. Process Name chrome.exe
122. PID 3440
123. Average Utilization (%) 0.28
124. Module Average Module Utilization (%)
125. \Device\HarddiskVolume2\Program Files (x86)\Google\Chrome\Application\57.0.2987.133\chrome.dll 0.18
126. \SystemRoot\system32\ntoskrnl.exe 0.04
127. \Device\HarddiskVolume2\Windows\SysWOW64\ntdll.dll 0.01
128. Information
129.  
130. Platform Timer Resolution:Timer Request Stack
131. The stack of modules responsible for the lowest platform timer setting in this process.
132. Requested Period 10000
133. Requesting Process ID 436
134. Requesting Process Path \Device\HarddiskVolume2\Windows\System32\svchost.exe
135. Calling Module Stack \Device\HarddiskVolume2\Windows\System32\ntdll.dll
136. \Device\HarddiskVolume2\Windows\System32\mmcss.dll
137. \Device\HarddiskVolume2\Windows\System32\ntdll.dll
138. \Device\HarddiskVolume2\Windows\System32\mmcss.dll
139. \Device\HarddiskVolume2\Windows\System32\svchost.exe
140. \Device\HarddiskVolume2\Windows\System32\sechost.dll
141. \Device\HarddiskVolume2\Windows\System32\kernel32.dll
142. \Device\HarddiskVolume2\Windows\System32\ntdll.dll
143. Power Policy:Active Power Plan
144. The current power plan in use
145. Plan Name OEM Balanced
146. Plan GUID {381b4222-f694-41f0-9685-ff5bb260df2e}
147. Power Policy:Power Plan Personality (On Battery)
148. The personality of the current power plan when the system is on battery power.
149. Personality Balanced
150. Power Policy:Video Quality (On Battery)
151. Enables Windows Media Player to optimize for quality or power savings when playing video.
152. Quality Mode Balance Video Quality and Power Savings
153. Power Policy:Power Plan Personality (Plugged In)
154. The personality of the current power plan when the system is plugged in.
155. Personality Balanced
156. Power Policy:Video quality (Plugged In)
157. Enables Windows Media Player to optimize for quality or power savings when playing video.
158. Quality Mode Optimize for Video Quality
159. Battery:Battery Information
160. Battery ID ASUSTekM50--24
161. Manufacturer ASUSTek
162. Serial Number
163. Chemistry LIon
164. Long Term 1
165. Design Capacity 48400
166. Last Full Charge 24200
167. Platform Power Management Capabilities:Supported Sleep States
168. Sleep states allow the computer to enter low-power modes after a period of inactivity. The S3 sleep state is the default sleep state for Windows platforms. The S3 sleep state consumes only enough power to preserve memory contents and allow the computer to resume working quickly. Very few platforms support the S1 or S2 Sleep states.
169. S1 Sleep Supported false
170. S2 Sleep Supported false
171. S3 Sleep Supported true
172. S4 Sleep Supported true
173. Platform Power Management Capabilities:Adaptive Display Brightness is supported.
174. This computer enables Windows to automatically control the brightness of the integrated display.
175. Platform Power Management Capabilities:Processor Power Management Capabilities
176. Effective processor power management enables the computer to automatically balance performance and energy consumption.
177. Group 0
178. Index 0
179. Idle (C) State Count 2
180. Performance (P) State Count 7
181. Throttle (T) State Count 8
182. Platform Power Management Capabilities:Processor Power Management Capabilities
183. Effective processor power management enables the computer to automatically balance performance and energy consumption.
184. Group 0
185. Index 1
186. Idle (C) State Count 2
187. Performance (P) State Count 7
188. Throttle (T) State Count 8
189. Platform Power Management Capabilities:Processor Power Management Capabilities
190. Effective processor power management enables the computer to automatically balance performance and energy consumption.
191. Group 0
192. Index 2
193. Idle (C) State Count 2
194. Performance (P) State Count 7
195. Throttle (T) State Count 8
196. Platform Power Management Capabilities:Processor Power Management Capabilities
197. Effective processor power management enables the computer to automatically balance performance and energy consumption.
198. Group 0
199. Index 3
200. Idle (C) State Count 2
201. Performance (P) State Count 7
202. Throttle (T) State Count 8
203. Platform Power Management Capabilities:Processor Power Management Capabilities
204. Effective processor power management enables the computer to automatically balance performance and energy consumption.
205. Group 0
206. Index 4
207. Idle (C) State Count 2
208. Performance (P) State Count 7
209. Throttle (T) State Count 8
210. Platform Power Management Capabilities:Processor Power Management Capabilities
211. Effective processor power management enables the computer to automatically balance performance and energy consumption.
212. Group 0
213. Index 5
214. Idle (C) State Count 2
215. Performance (P) State Count 7
216. Throttle (T) State Count 8
217. Platform Power Management Capabilities:Processor Power Management Capabilities
218. Effective processor power management enables the computer to automatically balance performance and energy consumption.
219. Group 0
220. Index 6
221. Idle (C) State Count 2
222. Performance (P) State Count 7
223. Throttle (T) State Count 8
224. Platform Power Management Capabilities:Processor Power Management Capabilities
225. Effective processor power management enables the computer to automatically balance performance and energy consumption.
226. Group 0
227. Index 7
228. Idle (C) State Count 2
229. Performance (P) State Count 7
230. Throttle (T) State Count 8