Garfunkel

Win 7 32 bit in a 1Gb RAM AMD Sempron 140 2.7Ghz OC to 3.6… Just for a sudgestion for Sensor panel item. use a specific script for UP time such as read it once on startup then increment it internally based on update frequency. So it will not read it again and again.

Now I know why my Sensor Panel uses up to 15% of my CPU… It's because of the UP Time… don't know why…

add a feature for disabling context menu in sensor panel… my little bro is editing it

I saw the DRAM Voltage in BIOS/Power/PC Health with fan speeds, temperatures and voltages… BIOS: "AMI BIOS" … Thanks

Thanks I'll still give you the source when its finished

Sensor Type: Winbond W83627DHG-P (ISA A10h) Motherboard Name: Emaxx EMX-MCP61M-iCafe CPU VID and North Bridge VID not shown (I saw it on System Stability test) North Bridge VID Shows same value in Chip Voltage in BIOS…(just for info) Wrong value in +12V based on BIOS DRAM Voltage missing, I saw it on BIOS, so i think you can show it Also just for sudgestion of using specific fix within the main application… try this pattern… on Aida Load or Startup, Check for a file or RegKey that stores the sensor information, addreses or script If null or missing then load a DLL (a extension that stores all of the specific fix) then save all required information on a file or RegKey. If have then read the data. (do not load the dll that stores specific fix, just set all data to a variable) I think it will make aida64 use less memory and speedup loading also integrate the "Correction" on that file or RegKey.

If you'll allow me… I'll try to make a form application that makes a gadget that looks like the sensor panel… I'm not too familiar with java and HTML coding, so i think it will take a month or more to finish… … it's ok if it will not be granted …

it doesn't use the color i choosed on startup…

Just for a sudgestion… Put this feature in a seperate tool such as "Display Benchmark" or "Display test" or simillar. Just like the "Disk Benchmark" and "Cache and Memory Benchmark". Where all Display related test can be made and shows a graph for Temperatures, CPU Utilization, GPU Utilization, Memory Controller Utilization, Video Engine Utilization and FPS Count and gives you the ability to set the Texture Size and Vertex Count.

Thanks,

It uses up to 15% of mu CPU (don't know maybe on FPU) (I don't have a graphics card installed, just the integrated one) It don't have an analog clock I can't set transparency of the background (but if you can make it use the win7 transparency, just like the Gadget menu, i'll much like it) It don't have a graph (Line i prefer) just like on the "System stability test" The bar limit, I think it's better if the color is gradiently changing The mouse over event, just like on the sidebar if it has a transparency and don't have the mouse focus, it remains the transparency else if it has a transparency and have the mouse focus, it removes the transparency Thats all for now… there's more but can't explain in words for now… Thanks…

I really don't like the sensorPanel... for some reasons...

Just for a sudgestion... can you make the sidebar gadget like the one marked on the attachment... I just need the graph for all items i wan't... and the uptime Expect for up to one month delay for my replies...

Thanks.... it works... soon i'll try with chassis fan unpluged...

------[ AIDA64 v2.20.1817 Beta ]------ ------[ Microsoft Windows 7 Ultimate 6.1.7601 Service Pack 1 (32-bit) ]------ ------[ Motherboard Info ]------ Motherboard ID : 64-0100-000001-00101111-012011-ATHLON64$C61111A0_BIOS DATE: 01/20/11 09:44:57 VER: 08.00.15 EMX-MCP61M-ICAFE BIOS V1.2 Motherboard Model : Emaxx EMX-MCP61M-iCafe Motherboard Chipset : nVIDIA nForce 6100-430, AMD K10 DMI MB Manufacturer : Emaxx Technologies, Inc DMI MB Product : EMX-MCP61M-iCafe DMI MB Version : V1.1 DMI MB Serial : DMI SYS Manufacturer: To Be Filled By O.E.M. DMI SYS Product : To Be Filled By O.E.M. DMI SYS Version : To Be Filled By O.E.M. DMI SYS Serial : To Be Filled By O.E.M. DMI BIOS Version : 080015 ITE 87xx Port = 00h ITE 87xx HWMonitor Port = 0000h ITE 87xx Device ID = 0000h ITE 87xx Version = 00h Winbond SuperIO Port = 2Eh Winbond SuperIO HWMonitor Port = 0A10h Winbond SuperIO Device ID = B073h Winbond Sensor ID A3/5C/reg$58 = A3 / 5C / C1 Fintek SuperIO Port = 00h Fintek SuperIO HWMonitor Port = 0000h Fintek SuperIO Device ID = 0000h LPC47 SuperIO HWMonitor Port = 0000h LPC47 SuperIO Device ID = FFFFh ------[ LM78 ISA Sensor Device at 0A10 ]------ 0000 04 FF 04 FF 01 00 00 00 01 01 01 01 3C 3C 0A 0A 0010 04 FF 00 00 00 01 01 3C 43 17 00 00 25 FF FF C6 0020 AB EA D5 D5 7B 9E CD 1B 50 34 FF DA 00 12 02 A0 0030 87 4E 0A 00 9B 90 66 05 E8 2F A2 23 39 21 CB FF 0040 03 4E 10 FF FF 00 3F F5 2D 00 00 C4 90 95 00 A3 0050 FF FF 00 FF FF FF 00 80 C1 FF FF FF 19 85 04 05 0060 04 7F 40 00 01 01 3C FF 01 FF 01 FF FF FF FF 00 0070 00 00 00 00 00 0E 7F 7F 7F 7F 7F 7F 00 1B FF FF 0080 04 FF 04 FF 01 00 00 00 01 01 01 01 3C 3C 0A 0A 0090 04 FF 00 00 00 01 01 3C 43 17 00 00 25 FF FF C6 00A0 AB EA D5 D5 7B 9E CD 1B 50 34 FF DA 00 12 02 A0 00B0 87 4E 0A 00 9B 90 66 05 E8 2F A2 23 39 21 CB FF 00C0 03 00 10 FF FF 00 3F F5 2D 00 00 C4 90 95 00 A3 00D0 FF FF 00 FF FF FF 00 80 C1 FF FF FF 19 85 04 05 00E0 04 7F 40 00 01 01 3C FF 01 FF 01 FF FF FF FF 00 00F0 00 00 00 00 00 0E 7F 7F 7F 7F 7F 7F 00 1B FF FF 0027 0150 0250 007D 007E T: 27 28 16 27 255 T: 27 28 16 27 255 T: 27 28 16 27 255 T: 27 28 16 27 255 T: 27 29 16 27 255 T: 27 28 16 27 255 T: 27 28 16 27 255 T: 27 28 16 27 255 T: 27 28 16 27 255 T: 27 28 16 27 255 Bnk0 FF FF 00 FF FF FF 00 80 C1 FF FF FF 19 85 04 05 Bnk1 1C 00 00 4B 00 50 01 FE 00 00 00 00 00 00 0E FF Bnk2 10 00 00 4B 00 50 1B 50 FF FF FF FF FF FF FF FF Bnk3 05 04 07 07 03 05 02 05 03 01 00 40 26 0E 00 00 Bnk4 3B 13 FF 00 F4 F3 F0 0B 3D 4E 1D BB 09 60 20 7F Bnk5 D3 C3 00 FF 54 0E BA EA 0E A9 00 00 00 00 00 00 Bnk6 08 3D 0C 6F 00 29 00 29 00 29 0D FF FF FF FF FF Reg$20 CPU Core: r = 171, r*0.016 = 2.74 Reg$21 CPU Aux: r = 234, r*0.016 = 3.74 Reg$22 +3.3 V: r = 213, r*0.016 = 3.41 Reg$23 +5 V: r = 213, r*0.016 = 3.41 Reg$24 +12 V: r = 123, r*0.016 = 1.97 Reg$25 -12 V: r = 158, r*0.016 = 2.53 Reg$26 -5 V: r = 205, r*0.016 = 3.28 ------[ ACPI Temperatures & Fans ]------ _TZ_.THM0._TMP : _TZ_.THM1._TMP : _TZ_.THR0._TMP : _TZ_.THR1._TMP : _TZ_.TZ00._TMP : _TZ_.TZ01._TMP : _TZ_.RTMP : _TZ_.RFAN : _TZ_.RFAN(0) : _TZ_.RFAN(1) : _SB_.ATKD._HID : _SB_.ATKD.TMPR : _SB_.PCI0.LPC0.EC0_.CCTV : _SB_.PCI0.LPC0.EC0_.LRPM : _SB_.PCI0.LPC0.EC0_.HRPM : _SB_.PCI0.SBRG.EC0_.ECPU : _SB_.PCI0.SBRG.EC0_.TACH(0): _SB_.PCI0.SBRG.EC0_.TACH(1): _SB_.PCI0.SBRG.EC0_.TAH0 : _SB_.PCI0.SBRG.EC0_.TAH1 : _SB_.PCI0.SBRG.EC0_.ST00 : _SB_.PCI0.SBRG.EC0_.SC01 : _SB_.PCI0.SBRG.EC0_.SC02 : _SB_.PCI0.SBRG.EC0_.SC03 : _SB_.PCI0.SBRG.EC0_.SC04 : _SB_.PCI0.SBRG.EC0_.SC05 : _SB_.PCI0.SBRG.EC0_.SC06 : _SB_.PCI0.PIB_.EC0_.TCRT : _SB_.PCI0.SBRG.EC0_.CTPM : _SB_.PCI0.SBRG.EC__.CPUT : _SB_.PCI0.SBRG.EC__.SYST : _SB_.PCI0.LPC_.EC0_.CTMP : _SB_.PCI0.LPCB.EC0_.CTMP : _SB_.PCI0.LPC_.EC0_.TMP1 : _SB_.PCI0.LPC_.EC0_.TMP2 : _SB_.PCI0.LPC_.EC0_.TMPI : _SB_.PCI0.LPC_.EC0_.TMPV : _SB_.PCI0.LPCB.EC0_.A1TP : _SB_.PCI0.LPCB.EC0_.A2TP : _SB_.PCI0.LPCB.EC0_.FAN0 : _SB_.PCI0.LPCB.EC__.TS1R : _SB_.PCI0.LPCB.EC__.TS2R : _SB_.PCI0.LPCB.EC__.TS3R : _SB_.PCI0.LPCB.EC__.F1FL : _SB_.PCI0.LPCB.EC__.F1FH : _SB_.PCI0.LPCB.EC__.F2FL : _SB_.PCI0.LPCB.EC__.F2FH : _SB_.PCI0.LPC_.H8EC.RTMP : _SB_.PCI0.LPC_.H8EC.LTMP : _SB_.PCI0.LPC_.H8EC.MTMP : _SB_.PCI0.LPC_.H8EC.GTMP : _SB_.PCI0.LPCB.H8EC.CTMP : _SB_.PCI0.LPCB.H8EC.DTMP : _SB_.PCI0.LPCB.H8EC.GTMP : _SB_.PCI0.LPCB.H8EC.ITMP : _SB_.PCI0.LPCB.H8EC.MTMP : _SB_.PCI0.LPCB.H8EC.STMP : _SB_.PCI0.LPCB.H8EC.PFAN : ------[ nVIDIA THERM Fan ]------ Initial : 00 (0 ms) Step 5 : 00 (16 ms) Step 5 : 00 (31 ms) Step 5 : 00 (47 ms) Step 5 : 00 (62 ms) Step 5 : 00 (78 ms) Step 5 : 00 (94 ms) Step 5 : 00 (109 ms) Step 5 : 00 (125 ms) Step 5 : 00 (140 ms) Step 5 : 00 (156 ms) Step 10 : 00 (172 ms) Step 10 : 00 (187 ms) Step 10 : 00 (203 ms) Step 10 : 00 (218 ms) Step 10 : 00 (234 ms) Step 10 : 00 (250 ms) Step 10 : 00 (265 ms) Step 10 : 00 (281 ms) Step 10 : 00 (296 ms) Step 10 : 00 (312 ms) Step 50 : 00 (374 ms) Step 50 : 00 (437 ms) Step 50 : 00 (499 ms) Step 50 : 00 (562 ms) Step 50 : 00 (624 ms) Step 50 : 00 (686 ms) Step 50 : 00 (749 ms) Step 50 : 00 (842 ms) Step 50 : 00 (905 ms) Step 50 : 00 (967 ms) Step 100: 00 (1076 ms) Step 100: 00 (1186 ms) Step 100: 00 (1295 ms) Step 100: 00 (1404 ms) Step 100: 00 (1513 ms) Step 100: 00 (1622 ms) Step 100: 00 (1732 ms) Step 100: 00 (1841 ms) Step 100: 00 (1950 ms) Step 100: 00 (2059 ms) Step 200: 00 (2262 ms) Step 200: 00 (2465 ms) Step 200: 00 (2668 ms) Step 200: 00 (2870 ms) Step 200: 00 (3073 ms) Step 200: 00 (3276 ms) Step 200: 00 (3479 ms) Step 200: 00 (3682 ms) Step 200: 00 (3884 ms) Step 200: 00 (4087 ms)

just for a correction.