Sp 36 Code Pdf Free Download
Formsbirds provides several templates of biodata form for your personal use. If you are searching for a biodata sample, you can download the biodata forms in pdf format at Formsbirds. These templates are free for you to download, and you can print the templates out for your later use. “Remove paint or galvanizing at the location of field welds by blast cleaning (SSPC SP-6 finish), or hand (SSPC SP-2 finish) or power tool cleaning (SSPC SP-3 finish) just prior to welding. Clean sufficiently to prevent contamination of the weld by the paint.” note: Refer to Appendix B for SSPC standards.
C H A P T E R 8 |
BIOS Power-On Self-Test (POST) Codes |
The system BIOS provides a basic power-on self-test (POST), during which the BIOS checks the basic devices required for the server to operate. The progress of the self-test is indicated by a series of POST codes. This chapter explains the BIOS POST testing, provides an alternate method for viewing the codes, describes how to change POST options, and lists the POST codes.
Once you have purchased your British Standards Download you will be entitled to download one copy of each British Standards PDF onto a single computer. Downloaded British Standards PDF documents are not for resale. You can not sell, lend or give the British Standards PDF to anyone else without written consent from BSI.
This chapter contains the following sections:
Download Sp 34 - 1987 Handbook on Concrete Reinforcement and Detailing. About Us We believe everything in the internet must be free. So this tool was designed for free download documents from the internet. STANDARD SPECIFICATION Table 1 PLATE ASTM JIS BS DIN A-36 Structural Steel G 3101 SS400 4360 Gr 40A (1) 17100 St44-2 G 3105 SM400A 4360 Gr 438 (1) 17100 St44-3.
About POST
The POST is a systematic check of basic system devices. As the testing progresses, the BIOS displays codes that you can use to interpret the status of your server. The codes appear at the bottom right corner of the system’s VGA screen, after the self-test has progressed far enough to initialize the video monitor. Because the codes might scroll off of the screen too quickly to be read, an alternate method of displaying POST codes is to redirect the output of the console to a serial port (see Redirecting Console Output).
You can also see some of the post codes on LEDs inside the front panel of your server node (see POST Code LEDs).
How BIOS POST Memory Testing Works
Sp 36 Code Pdf Free Download 64-bit
The BIOS POST memory testing is performed as follows:
1. The first megabyte of DRAM is tested by the BIOS before the BIOS code is shadowed (that is, copied from ROM to DRAM).
2. Once executing out of DRAM, the BIOS performs a simple memory test (a write/read of every location with the pattern 55aa55aa).
Note - This memory test is performed only if Quick Boot is not enabled from the Boot Settings Configuration screen. Enabling Quick Boot causes the BIOS to skip the memory test. See Changing POST Options for more information. |
3. The BIOS polls the memory controllers for both correctable and non-correctable memory errors and logs those errors into the SP.
4. The message BMC Responding appears at the end of POST.
Redirecting Console Output
You can access BIOS POST codes remotely using the web interface or the CLI.
To Access BIOS POST Codes Using the Web Interface |
1. Open a browser and use the SP’s IP address as the URL.
Refer to the Sun Integrated Lights Out Manager 2.0 User’s Guide (820-1188) for information on how to obtain the IP address of the SP.
2. Type a user name and password as follows:
User name: root
Password: changeme
3. The ILOM SP web interface screen appears.
4. Click the Remote Control tab.
5. Click the Redirection tab.
6. Click the Start Redirection button.
The javaRConsole window appears and prompts you for your user name and password again, then the current POST screen appears.
To Access BIOS POST Codes Using the CLI |
1. Log in to the SP cli with the command ssh root@<SP IP address> and use the command start /SP/console to start the serial console.
Changing POST Options
These instructions are optional, but you can use them to change the operations that the server performs during POST testing.
To Change the POST Options |
1. Initialize the BIOS Setup Utility by pressing the F2 key while the system is performing the power-on self-test (POST).
The BIOS Main Menu screen appears.
2. Select the Boot menu.
The Boot Settings screen appears.
3. Select Boot Settings Configuration.
The Boot Settings Configuration screen appears.
4. On the Boot Settings Configuration screen, there are several options that you can enable or disable:
- Retry Boot List: Automatically retries the boot list when all devices have failed. This option is enabled by default.
- Quick Boot: This option is enabled by default. The BIOS skips certain tests while booting, such as the extensive memory test. This decreases the time it takes for the system to boot.
- Quiet Boot: This option is disabled by default. If you enable this option, the Sun Microsystems logo appears instead of POST codes.
- Wait for F1 if Error: This option is enabled by default. The system pauses if an error is found during POST and only resumes when you press the F1 key.
- On-board IB gPXE Boot First: Sets the on-board infiniband gPXE to always boot first. This option is disabled by default.
POST Codes
TABLE 8-1 contains descriptions of each of the POST codes, listed in the same order in which they are generated. These POST codes appear at the bottom right of the BIOS screen as a four-digit string that is a combination of two-digit output from primary I/O port 80 and two-digit output from secondary I/O port 81. In the POST codes listed in TABLE 8-1, the first two digits are from port 81 and the last two digits are from port 80.
You can see some of the POST codes from primary I/O port 80 on LEDs inside the front panel of your server node (see POST Code LEDs).
The Response column describes the action taken by the system on encountering the corresponding error. The actions are:
- Warning or Not an Error - The message appears on the screen. An error record is logged to the system event log (SEL). The system continues booting with a degraded state. The user might want to replace the unit.
- Pause - The message appears on the screen, an error is logged to the SEL, and user input is required to continue. The user can take immediate corrective action or choose to continue booting.
- Halt - The message appears on the screen, an error is logged to the SEL, and the system cannot boot unless the error is resolved. The user needs to replace the faulty part and restart the system.
Error Code | Error Message | Response |
---|---|---|
0000 | Timer Error | Pause |
0003 | CMOS Battery Low | Pause |
0004 | CMOS Settings Wrong | Pause |
0005 | CMOS Checksum Bad | Pause |
000B | CMOS Memory Size Wrong | Pause |
000C | RAM R/W Test Failed | Pause |
000E | A: Drive Error | Pause |
000F | B: Drive Error | Pause |
0012 | CMOS Date/Time Not Set | Pause |
0040 | Refresh Timer Test Failed | Halt |
0041 | Display Memory Test Failed | Pause |
0042 | CMOS Display Type Wrong | Pause |
0043 | ~<INS> Pressed | Pause |
0044 | DMA Controller Error | Halt |
0045 | DMA-1 Error | Halt |
0046 | DMA-2 Error | Halt |
0047 | Unknown BIOS error. Error code = 0047 | Halt |
0048 | Password Check Failed | Halt |
0049 | Unknown BIOS error. Error code = 0049 | Halt |
004A | Unknown BIOS error. Error code = 004A | Pause |
004B | Unknown BIOS error. Error code = 004B | Pause |
004C | Keyboard/Interface Error | |
005D | S.M.A.R.T. Command Failed | |
005E | Password Check Failed | Pause |
0101 | Warning! This system board does not support the power requirements of the installed processor. The processor will be run at a reduced frequency, which will impact system performance. | Pause |
0102 | Error! The CPU Core to Bus ratio or VID configuration has failed! Please enter BIOS Setup and re-config it. | Pause |
0103 | ERROR! CPU MTRRs configuration failed! Uncacheable memory hole or PCI space too complicated. | |
0120 | Thermal Trip Failure | Pause |
0121 | Thermal Trip Failure | Pause |
0122 | Thermal Trip Failure | Pause |
0123 | Thermal Trip Failure | Pause |
0124 | Thermal Trip Failure | Pause |
0125 | Thermal Trip Failure | Pause |
0126 | Thermal Trip Failure | Pause |
0127 | Thermal Trip Failure | Pause |
0128 | Thermal Trip Failure | |
0129 | Thermal Trip Failure | |
012A | Thermal Trip Failure | |
012B | Thermal Trip Failure | |
012C | Thermal Trip Failure | |
012D | Thermal Trip Failure | |
012E | Thermal Trip Failure | |
012F | Thermal Trip Failure | |
0150 | Processor Failed BIST | Pause |
0151 | Processor Failed BIST | Pause |
0152 | Processor Failed BIST | Pause |
0153 | Processor Failed BIST | Pause |
0154 | Processor Failed BIST | Pause |
0155 | Processor Failed BIST | Pause |
0156 | Processor Failed BIST | Pause |
0157 | Processor Failed BIST | Pause |
0158 | Processor Failed BIST | |
0159 | Processor Failed BIST | |
015A | Processor Failed BIST | |
015B | Processor Failed BIST | |
015C | Processor Failed BIST | |
015D | Processor Failed BIST | |
015E | Processor Failed BIST | |
015F | Processor Failed BIST | |
0160 | Processor missing microcode | Pause |
0161 | Processor missing microcode | Pause |
0162 | Processor missing microcode | Pause |
0163 | Processor missing microcode | Pause |
0164 | Processor missing microcode | Pause |
0165 | Processor missing microcode | Pause |
0166 | Processor missing microcode | Pause |
0167 | Processor missing microcode | Pause |
0168 | Processor missing microcode | |
0169 | Processor missing microcode | |
016A | Processor missing microcode | |
016B | Processor missing microcode | |
016C | Processor missing microcode | |
016D | Processor missing microcode | |
016E | Processor missing microcode | |
016F | Processor missing microcode | |
0180 | BIOS does not support current stepping | Pause |
0181 | BIOS does not support current stepping | Pause |
0182 | BIOS does not support current stepping | Pause |
0183 | BIOS does not support current stepping | Pause |
0184 | BIOS does not support current stepping | Pause |
0185 | BIOS does not support current stepping | Pause |
0186 | BIOS does not support current stepping | Pause |
0187 | BIOS does not support current stepping | Pause |
0188 | BIOS does not support current stepping | |
0189 | BIOS does not support current stepping | |
018A | BIOS does not support current stepping | |
018B | BIOS does not support current stepping | |
018C | BIOS does not support current stepping | |
018D | BIOS does not support current stepping | |
018E | BIOS does not support current stepping | |
018F | BIOS does not support current stepping | |
0192 | L2 cache size mismatch. | |
0193 | CPUID, Processor stepping are different. | |
0194 | CPUID, Processor family are different. | Pause |
0195 | Front side bus mismatch. System halted. | |
0196 | CPUID, Processor Model are different. | Pause |
0197 | Processor speeds mismatched. | Pause |
5120 | CMOS cleared by jumper. | Pause |
5121 | Password cleared by jumper. | Pause |
5125 | Not enough conventional memory to copy PCI Option ROM. | |
5180 | Unsupported Memory Vendor : DIMM_A0 | Warning |
5181 | Unsupported Memory Vendor : DIMM_A1 | Warning |
5182 | Unsupported Memory Vendor : DIMM_A2 | Warning |
5183 | Unsupported Memory Vendor : DIMM_A3 | Warning |
5184 | Unsupported Memory Vendor : DIMM_A4 | |
5185 | Unsupported Memory Vendor : DIMM_B0 | Warning |
5186 | Unsupported Memory Vendor : DIMM_B1 | Warning |
5187 | Unsupported Memory Vendor : DIMM_B2 | Warning |
5188 | Unsupported Memory Vendor : DIMM_B3 | Warning |
5189 | Unsupported Memory Vendor : DIMM_B4 | Warning |
518A | Unsupported Memory Vendor : DIMM_B5 | Warning |
518B | Unsupported Memory Vendor : DIMM_C0 | Warning |
518C | Unsupported Memory Vendor : DIMM_C1 | Warning |
518D | Unsupported Memory Vendor : DIMM_C2 | Warning |
518F | Unsupported Memory Vendor : DIMM_C3 | Warning |
5190 | Unsupported Memory Vendor : DIMM_C4 | Warning |
5191 | Unsupported Memory Vendor : DIMM_C5 | Warning |
5192 | Unsupported Memory Vendor : DIMM_D0 | Warning |
5193 | Unsupported Memory Vendor : DIMM_D1 | Warning |
5194 | Unsupported Memory Vendor : DIMM_D2 | Warning |
5195 | Unsupported Memory Vendor : DIMM_D3 | Warning |
5196 | Unsupported Memory Vendor : DIMM_D4 | Warning |
5197 | Unsupported Memory Vendor : DIMM_D5 | Warning |
51A0 | Unsupported AMB Vendor : DIMM_A0 | Warning |
51A1 | Unsupported AMB Vendor : DIMM_A1 | Warning |
51A2 | Unsupported AMB Vendor : DIMM_A2 | Warning |
51A3 | Unsupported AMB Vendor : DIMM_A3 | Warning |
51A4 | Unsupported AMB Vendor : DIMM_A4 | Warning |
51A5 | Unsupported AMB Vendor : DIMM_A5 | Warning |
51A6 | Unsupported AMB Vendor : DIMM_B0 | Warning |
51A7 | Unsupported AMB Vendor : DIMM_B1 | Warning |
51A8 | Unsupported AMB Vendor : DIMM_B2 | Pause |
51A9 | Unsupported AMB Vendor : DIMM_B3 | Warning |
51AA | Unsupported AMB Vendor : DIMM_B4 | Warning |
51AB | Unsupported AMB Vendor : DIMM_B5 | Warning |
51AC | Unsupported AMB Vendor : DIMM_C0 | Warning |
51AD | Unsupported AMB Vendor : DIMM_C1 | Pause |
51AE | Unsupported AMB Vendor : DIMM_C2 | Warning |
51AF | Unsupported AMB Vendor : DIMM_C3 | Pause |
51B0 | Unsupported AMB Vendor : DIMM_C4 | Pause |
51B1 | Unsupported AMB Vendor : DIMM_C5 | Pause |
51B2 | Unsupported AMB Vendor : DIMM_D0 | |
51B3 | Unsupported AMB Vendor : DIMM_D1 | |
51B4 | Unsupported AMB Vendor : DIMM_D2 | |
51B5 | Unsupported AMB Vendor : DIMM_D3 | |
51B6 | Unsupported AMB Vendor : DIMM_D4 | |
51B7 | Unsupported AMB Vendor : DIMM_D5 | |
51C0 | Memory Configuration Error. | |
8101 | Warning! USB Host Controller not found at the specified address!!! | |
8102 | Error! USB device failed to initialize!!! | |
8104 | Warning! Port 60h/64h emulation is not supported by this USB Host Controller!!! | |
8105 | Warning! EHCI controller disabled. It requires 64bit data support in the BIOS. | |
8301 | Not enough space in runtime area. SMBIOS data will not be available. | |
8302 | Not enough space in runtime area. SMBIOS data will not be available. | |
8601 | Error: BMC Not Responding | |
8701 | Insufficient Runtime space for MPS data.!. System may operate in PIC or Non-MPS mode. |
POST Code LEDs
Two LEDs inside the front cover of your server node display the same two-digit POST code output from primary I/O port 80 that is shown on the BIOS screen (the right-most two digits on the lower right of the BIOS screen are the POST code from primary I/O port 80).
In general, the POST codes change so rapidly that you cannot distinguish individual digits. Some POST tests take enough time (or pause or stop), however, so that they might be readable if you look at the LEDs through the front panel. Such codes are listed in TABLE 8-2.
Code | Meaning |
---|---|
Initializing IPMI BT interface. | |
Testing base memory; system might hang if test fails. | |
Copying Boot Block to RAM and transferring control to RAM. | |
Initializing different devices through DIM (Device Initialization Manager). For example, USB controllers are initialized at this point. | |
Initializing Int-13 and preparing for IPL detection. | |
Initializing IPL devices controlled by BIOS and option ROMs. | |
Displaying errors to the user and getting the user response for error. | |
Executing BIOS setup if needed / requested. Checking boot password if installed. | |
Passing control to OS Loader (typically INT19h). | |
The flash has been updated successfully. Making flash write disabled. Disabling ATAPI hardware. Restoring CPUID value back into register. Giving control to F000 ROM at F000:FFF0h. |
Note - For each cold boot (such as when a blade is re-seated into the chassis), POST testing begins to run and detects system resources for a short while. After just a few POST codes, the node is turned off or restarted depending on the selected state in the BIOS for AC Power Loss (Always On, Always Off, or Last State). |
Sp 36 Code Pdf Free Download Windows 10
Sun Blade X6275 Server Module Diagnostics Guide | 820-6850-11 |
Sp 36 Code Pdf Free Download Windows 7
Copyright © 2009 Sun Microsystems, Inc. All rights reserved.