| Extended Read-Around-Write |
When Enabled, reads can bypass writes within the 82450GX memory interface component(s), provided their addresses do not match. |
| External Cache |
Cache memory is additional memory that is much faster than conventional DRAM (system memory). Most, but not all, modern PCs have additional (external) cache memory. When the CPU requests data, the system transfers the requested data from the main DRAM into cache memory, for even faster access by the CPU. |
| Extra AT Cycle WS |
Select Enabled to insert one wait state in the standard AT bus cycle. Normally used when Legacy peripherals require additional response time. |
| F |
| Fast AT Cycle |
Select Enabled to shorten AT bus cycles by one ATCLK signal. |
| Fast Back-to-Back |
When Enabled, consecutive write cycles targeted to the same slave become fast back-to-back on the PCI bus. |
| Fast DRAM Refresh |
The cache DRAM controller offers two refresh modes, Normal and Hidden. In both modes, CAS takes place before RAS but the Normal mode requires a CPU cycle for each. On the other hand, a cycle is eliminated by "hiding" the CAS refresh in Hidden mode. Not only is the Hidden mode faster and more efficient, but it also allows the CPU to maintain the status of the cache even if the system goes into Suspend power-management mode. |
| Fast EDO Leadoff |
Select Enabled only for EDO DRAMs in either a synchronous cache or a cacheless system. It causes a 1-HCLK pull-in for all read leadoff latencies for EDO DRAMs (i.e., page hits, page misses, and row misses). Select Disabled if any of the DRAM rows are populated with FPM DRAMs. |
| Fast EDO Path Select |
When Enabled, a fast path is selected for CPU-to-DRAM read cycles for the leadoff, providing the system contains EDO DRAMs. It causes a 1-HCLK pull-in for all read leadoff latencies (i.e., page hits, page misses, and row misses). |
| Fast MA to RAS# Delay [CLK] |
The values in this field are set by the system board designer, depending on the DRAM installed. Do not change the values in this field unless you change specifications of the installed DRAM or the installed CPU. |
| Fast RAS to CAS Delay |
When DRAM is refreshed, both rows and columns are addressed separately. This setup item allows you to determine the timing of the transition from RAS to Column Address Strobe (CAS). |
| FDD Detection |
When Enabled, any floppy drive activity wakes up the system or resets the inactivity timer. |
| Floppy 3 Mode Support |
When Enabled, the BIOS supports a type of 3.5-in diskette drive that can read 720-KB, 1.2-MB, and 1.44-MB diskettes. |
| G |
| Gate A20 Option |
Gate A20 refers to the way the system addresses memory above 1 MB (extended memory). When set to Fast, the system chipset controls Gate A20. When set to Normal, a pin in the keyboard controller controls Gate A20. Setting Gate A20 to Fast improves system speed, particularly with OS/2 and Windows. |
| Global Standby Timer |
After the selected period of inactivity for the entire system, the system enters Standby mode. |
| Global Suspend Timer |
After the selected period of global Standby mode, the system enters Suspend mode. |
| GPI05 Power Up Control |
When you select Enabled, a signal from General Purpose Input 05 returns the system to Full On state. SIS5597 |
| Graphic Posted Write Buff |
The chipset maintains its own internal buffer for graphics memory writes. When this buffer is Enabled, CPU write cycles to graphics memory are posted to the buffer, so the CPU can start another write cycle before the graphics memory finishes its cycle. |
| Guaranteed Access Time |
When Enabled, Guaranteed Access Time mode is enabled, so a CHRDY time-out of 2.5 (s is guaranteed for the ISA bus. When Disabled, an ISA bus master is granted the ISA bus and then the SIO chip arbitrates for the PCI bus. |
| H |
| Halt On |
During the power-on self-test (POST), the computer stops if the BIOS detects a hardware error. You can tell the BIOS to ignore certain errors during POST and continue the boot-up process. These are the selections:
| No errors |
POST does not stop for any errors. |
| All errors |
If the BIOS detects any non-fatal error, POST stops and prompts you to take corrective action. |
| All, But Keyboard |
POST does not stop for a keyboard error, but stops for all other errors. |
| All, But Diskette |
POST does not stop for diskette drive errors, but stops for all other errors. |
| All, But Disk/Key |
POST does not stop for a keyboard or disk error, but stops for all other errors. |
|
| Hard Disks |
The BIOS supports up to four IDE drives. This section does not show information about other IDE devices, such as a CD-ROM drive, or about other hard drive types, such as SCSI drives.
NOTE: We recommend that you select type AUTO for all drives.
The BIOS can automatically detect the specifications and optimal operating mode of almost all IDE hard drives. When you select type AUTO for a hard drive, the BIOS detects its specifications during POST, every time the system boots.
If you do not want to select drive type AUTO, other methods of selecting the drive type are available:
- Match the specifications of your installed IDE hard drive(s) with the preprogrammed values for drive types 1 through 45.
- Select USER and enter values into each drive parameter field.
- Use the IDE HDD AUTO DECTECTION function in Setup.
Here is a brief explanation of drive specifications:
- Type: The BIOS contains a table of pre-defined drive types. Each defined drive type has a specified number of cylinders, number of heads, write precompensation factor, landing zone, and number of sectors. Drives whose specifications do not accommodate any pre-defined type are classified as type USER.
- Size: Disk drive capacity (approximate). Note that this size is usually slightly greater than the size of a formatted disk given by a disk-checking program.
- Cyls: Number of cylinders
- Head: Number of heads
- Precomp: Write precompensation cylinder
- Landz: Landing zone
- Sector: Number of sectors
- Mode: Auto, Normal, large, or LBA
- Auto: The BIOS automatically determines the optimal mode.
- Normal: Maximum number of cylinders, heads, and sectors supported are 1024, 16, and 63.
- Large: For drives that do not support LBA and have more than 1024 cylinders. Applicable to only a few drives.
- LBA (Logical Block Addressing): During drive accesses, the IDE controller transforms the data address described by sector, head, and cylinder number into a physical block address, significantly improving data transfer rates. For drives with greater than 1024 cylinders.
|
| HDD Detection |
When Enabled, any hard drive activity wakes up the system or resets the inactivity timer. |
| HDD Off After |
After the selected period of drive inactivity, the hard disk drive powers down while all other devices remain active. Selecting Suspend tells the drive to power down immediately. |
| HDD Power Down |
After the selected period of drive inactivity, the hard disk drive powers down while all other devices remain active. |
| HDD Standby Timer |
After the selected period of drive inactivity, the hard disk drive powers down. Its timing is separate from other PM modes listed above. |
| Hidden Refresh |
When Disabled, DRAM is refreshed by IBM AT methodology, using a CPU cycles for each refresh. When hidden refresh is Enabled, the DRAM controller seeks the most opportune moment for a refresh, regardless of CPU cycles, with least disruption of system activity and least performance penalty. Hidden refresh is faster and more efficient, and it also allows the CPU to maintain the status of the DRAM even if the system goes into a power management "suspend" mode. |
| Host-to-PCI Bridge Retry |
When Enabled, the peripherals controller (PIIX4) retries, without initiating a delayed transaction, CPU-initiated nonLOCK# PCI cycles. No delayed transactions to the controller may be currently pending and passive release must be active.
When this field is Enabled, the Passive Release and Delayed Transaction fields should be Enabled. |
| Hot Key Power Off |
Select Enabled if your system has a hot key for soft power off. SIS5597 |
| I |
| I/O Recovery Time |
The peripheral controller insert a minimum of 2 bus clock (BCLK) delays between back-to-back 8- or 16-bit ISA I/O cycles issued from the PCI master. If a greater delay is desired, select 4, 8, 12 clocks. |
| IDE 32-bit Transfer Mode |
The IDE interface in the integrated peripherals controller supports 32-bit data transfers. Select enabled only if your IDE hard drives can also support 32-bit transfer mode. |
| IDE Buffer for DOS & Win |
Select Enabled to increase throughput to and from IDE devices by using the on-chip read-ahead and posted-write IDE buffers. Note that use of the buffers may cause some slow IDE devices to be even slower. When in doubt, experiment with this setting for optimal performance and data integrity. |
| IDE Burst Mode |
Selecting Enabled reduces latency between each drive read/write cycle, but may cause instability in IDE subsystems that cannot support such fast performance. If you are getting disk drive errors, try setting this value to Disabled. This field does not appear when the Internal PCI/IDE field is Disabled. |
| IDE Data Port Post Write |
Selecting Enabled speeds up processing of drive reads and writes, but may cause instability in IDE subsystems that cannot support such fast performance. If you are getting disk drive errors, try setting this value to Disabled. |
| IDE HDD Block Mode |
Block mode is also called block transfer, multiple commands, or multiple sector read/write. If your IDE hard drive supports block mode (most new drives do), select Enabled for automatic detection of the optimal number of block read/writes per sector the drive can support. |
| IDE Prefetch Mode |
The onboard IDE drive interfaces supports IDE prefetching, for faster drive accesses. If you install a primary and/or secondary add-in IDE interface, set this field to Disabled if the interface does not support prefetching. |
| IDE Primary/ Secondary Master/Slave PIO |
The four IDE PIO (Programmed Input/Output) fields let you set a PIO mode (0-4) for each of the four IDE devices that the onboard IDE interface supports. Modes 0 through 4 provide successively increased performance. In Auto mode, the system automatically determines the best mode for each device. |
| IDE Primary/ Secondary Master/Slave UDMA |
UDMA (Ultra DMA) is a DMA data transfer protocol that utilizes ATA commands and the ATA bus to allow DMA commands to transfer data at a maximum burst rate of 33 MB/s. When you select Auto in the four IDE UDMA fields (for each of up to four IDE devices that the internal PCI IDE interface supports), the system automatically determines the optimal data transfer rate for each IDE device. |
| IDE Second Channel Control |
The chipset contains a PCI IDE interface with support for two IDE channels. Select Enabled to activate the secondary on-chip IDE interface. Select Disabled to deactivate this interface, if you install a secondary add-in IDE interface. |
| In Order Queue Depth |
Select 8 to track up to eight pipelined bus transactions. |
| IN0-IN6 (V) |
These fields display the current voltage of up to seven voltage input lines, if your computer contains a monitoring system. |
| Inactive Timer Select |
Select the timeout period (period of system inactivity) after which the system enters Inactive mode. This period should be longer than the period selected for Standby mode. |
Init AGP Display First
Init Display First |
Initialize the AGP video display before initializing any other display device on the system. Thus the AGP display becomes the primary display. |
| Internal PCI/IDE |
The chipset contains a PCI IDE interface that supports two IDE channels: Primary (IRQ 14) and Secondary (IRQ 15). Each channel supports two IDE devices, so the system is capable of supporting a total of four IDE devices. Select Primary, Secondary, or Both to activate chipset IDE interface(s) installed on your system board. |
InfraRed Duplex Type
IR Function Duplex |
Select the value required by the IR device connected to the IR port. Full-duplex mode permits simultaneous two-direction transmission. Half-duplex mode permits transmission in one direction only at a time. If no infrared port is present in the system, select Disabled. |
| IR Duplex Mode |
Select the value required by the IR device connected to the IR port. Full-duplex mode permits simultaneous two-direction transmission. Half-duplex mode permits transmission in one direction only at a time. If no infrared port is present in the system, select Disabled. |
| IRQ n Assigned to |
When resources are controlled manually, assign each system interrupt as one of the following types, depending on the type of device using the interrupt:
| Legacy ISA: |
Devices compliant with the original PC AT bus specification, requiring a specific interrupt (such as IRQ4 for serial port 1) |
| PCI/ISA PnP: |
Devices compliant with the Plug and Play standard, whether designed for PCI or ISA bus architecture. |
|
IRQ8 Break Suspend
IRQ8 Break [Event From] Suspend |
You can Enable or Disable monitoring of IRQ8 (the Real Time Clock) so it does not awaken the system from Suspend mode. |
| IRQ8 Clock Event.. |
You can turn On or Off monitoring of IRQ8 (the Real Time Clock) so it does not awaken the system from Suspend mode. |
| IRQn Detection |
When Enabled, any activity from the selected IRQ (IRQ3-IRQ12; IRQ14-IRQ15) wakes up the system or resets the inactivity timer. |
| IRRX Mode Select |
This field appears only when IrDA mode 1.1 is selected for UART2 Mode. The value in this field depends on the type of transceiver module used for IrDA mode 1.1 (called fast IR). One type has a mode pin (IRMODE) and the other type has a second receive data channel (IRRX3). Do not change the factory default value of this field unless your IR peripheral documentation explicitly states a mode requirement for fast IR, or if you are having a problem configuring your IR peripheral in fast IR mode. |
| ISA Bus Clock |
You can set the speed of the AT bus at one-third or one-fourth of the CPU clock speed. |
ISA Bus Clock Option
ISA Bus Clock Frequency |
The ISA bus clock speed is the speed at which the CPU communicates with the AT bus (expansion bus). The speed is measured as a fraction of PCICLKI, the timing signal of the PCI bus. Experiment with setting the bus timing to a lower speed (for example, from PCICLKI/3 to PCICLKI/4) if an installed expansion peripheral has performance problems. |
| ISA Clock |
You can set the speed of the AT bus at one-third or one-fourth of the CPU clock speed. |
| ISA I/O Recovery |
The CPU and local bus are much faster than industry standard architecture (ISA) input/output (I/O) bus. Select Enabled to allow additional time for I/O devices to respond to the system. Otherwise, data could be lost. If all your I/O devices are capable of fast I/O, selecting Disabled can speed up processing. |
| ISA Line Buffer |
The PCI to ISA Bridge has an 8-byte bidirectional line buffer for ISA or DMA bus master memory reads from or writes to the PCI bus. When Enabled, an ISA or DMA bus master can prefetch two doublewords to the line buffer for a read cycle. |
| J |
| Joystick Function |
If your system has a joystick peripheral, select Enable. |
| K |
| KBC input clock |
The system designer must select the correct frequency for the keyboard controller input clock. Do not change this value from the default value. |
| Keyboard Controller Clock |
The keyboard controller clock speed is the speed at which the CPU communicates with the keyboard controller. Depending on the specifications of the installed keyboard controller, the speed may be fixed at 7.16 MHz or may be a fraction of PCICLKI, the timing signal of the PCI bus. |
| Keyboard Emulation |
When Enabled, Gate A20 and software reset emulation for an external keyboard controller are enabled. Be sure to make the setting of this field agree with the setting of the Gate A20 Option field in the BIOS Features Setup screen (Fast = Enabled; Normal = Disabled). |
| Keyboard Resume |
When Disabled, keyboard activity does NOT awaken the system from Suspend mode. VP2 |
| L |
| L1 Cache Policy |
Write-Through means that memory is updated with data held in the cache whenever the CPU issues a write cycle. On the other hand, Write-Back causes memory to be updated only under certain conditions, such as read requests to the memory whose contents are currently in the cache. Write-Back allows the CPU to operate with fewer interruptions, increasing its efficiency. |
| L2 Cache Cacheable Size |
Select 512 MB only if your system RAM is greater than 64 MB. |
| L2 Cache Write Policy |
In addition to the Write-Back and Write-Through options, the L2 cache also offers Adaptive WB1 and Adaptive WB2. Both adaptive write-back modes try to reduce the disadvantages of both the write-through and write-back policies. The system designer must select the optimal cache write policy, according to the SRAM specifications. |
| L2 to PCI Read Buffer |
The chipset maintains its own internal buffer for external-cache-to-PCI writes. When this buffer is Enabled, external cache write cycles to the PCI bus are posted to the buffer, so the each device can complete its cycles without waiting for the other. |
| L2 (WB) Tag Bit Length |
The system uses tag bits to determine the status of data in the cache. Set this field to match the specifications (7 or 8 bits) of the system external cache. |
| LCD&CRT |
Select your video display device:
| LCD |
Notebook liquid crystal display |
| CRT |
Auxiliary monitor |
| AUTO |
The BIOS autosenses the device in use (this value lets you switch between devices without being left "in the dark"). |
| LCD&CRT |
Display on both devices |
|
| LDEV Detection |
When Enabled, any activity on the LDEV signal line wakes up the system or resets the inactivity timer. |
| Linear Merge |
When Enabled, only consecutive linear addresses can be merged. |
| Linear Mode SRAM Support |
Select Enabled if your system contains a CPU that requires linear mode (e.g., Cyrix M1/M2 CPU). |
| Local Memory 15-16M |
To increase performance, your system can map slower device memory (usually a device is connected to the slower ISA bus) into much faster local bus memory. It does this by setting aside local memory and transferring the start point from the device memory to the local memory. Use this setting to enable/disable this capability. It is Enabled by default. |
| LREQ Detection |
When Enabled, any activity on the LREQ signal line wakes up the system or resets the inactivity timer. |
| M |
| M1 Linear Burst Mode |
Select Enabled if your system contains a Cyrix M1 CPU. |
| MA Additional Wait State |
Selecting Enabled inserts an additional wait state before the beginning of a memory read. The setting of this parameter depends on the board design. Do not change from the manufacturer's default unless you are getting memory addressing errors. |
Master Mode Byte Swap
Master Byte Swap Control |
Select Enabled or Disabled. |
| Master Retry Timer |
This sets how many PCI clock signals the CPU master attempts a PCI cycle before the cycle is unmasked (terminated). |
| Mem. Drive Str. (MA/RAS) |
(Memory Address Drive Strength) This field controls the strength of the output buffers driving the MA and BA1 pins (first value) and SRASx#, SCASx#, MWEx#, and CKEx pins (second value). |
| Memory |
You cannot change any values in the Memory fields; they are only for your information. The fields show the total installed random access memory (RAM) and amounts allocated to base memory, extended memory, and other (high) memory. RAM is counted in kilobytes (KB: approximately one thousand bytes) and megabytes (MB: approximately one million bytes).
RAM is the computer's working memory, where the computer stores programs and data currently being used, so they are accessible to the CPU. Modern personal computers may contain up to 64 MB, 128 MB, or more.
| Base Memory |
Typically 640 KB. Also called conventional memory. The DOS operating system and conventional applications use this area. |
| Extended Memory |
Above the 1-MB boundary. Early IBM personal computers could not use memory above 1 MB, but current PCs and their software can use extended memory. |
| Other Memory |
Between 640 KB and 1 MB; often called High memory. DOS may load terminate-and-stay-resident (TSR) programs, such as device drivers, in this area, to free as much conventional memory as possible for applications. Lines in your CONFIG.SYS file that start with LOADHIGH load programs into high memory. |
|
| Memory Hole at 15M Addr. |
You can reserve this area of system memory for ISA adapter ROM. When this area is reserved, it cannot be cached. The user information of peripherals that need to use this area of system memory usually discusses their memory requirements. |
| Memory Hole at 15M-16M |
You can reserve this area of system memory for ISA adapter ROM. When this area is reserved, it cannot be cached. The user information of peripherals that need to use this area of system memory usually discusses their memory requirements. |
| Memory Parity Check |
Select Enabled if the DRAM chips in your system support parity. |
| Memory Parity/ECC Check |
Select Enabled, Disabled, or Auto. In Auto mode, the BIOS enables memory checking automatically when it detects the presence of ECC or parity DRAM. |
| MODEM Use IRQ |
Name the interrupt request (IRQ) line assigned to the modem (if any) on your system. Activity of the selected IRQ always awakens the system. |
| Monitor Event in Full On Mode |
In On mode, the Standby timer (Standby Timer Select, 2-256 min) starts counting if no activity is taking place and the programmable time-out period has expired.
When you Enabled monitoring (checking) of a device listed under this category, it is included in the list of devices that the system monitors during the PM timers count-down.
When you Disable monitoring (checking) of a device listed under this category, activity does not interrupt the PM timers count-down.
|
| Month Alarm |
Select a month (1-12) or NA if you want the alarm active during all months. SIS5597 |
| MPS Version Control for OS |
The BIOS supports versions 1.1 and 1.4 of the Intel multiprocessor specification. Select the version supported by the operating system running on this computer. |
| MPU-401 Configuration |
Select Enabled to configure the MPU-401 interface. |
| MPU-401 I/O Base Address |
Select a base I/O address for the MPU-401 interface |
| N |
| NA# Enable |
Selecting Enabled permits pipelining, in which the chipset signals the CPU for a new memory address before all data transfers for the current cycle are complete, resulting in faster performance. |
| O |
| Onboard Audio Chip |
Select Enabled to use the audio capabilities of your system. Most of the following fields do not appear when this field is Disabled. |
| Onboard FDC/FDD Controller |
Select Enabled if your system has a floppy disk controller (FDC) installed on the system board and you wish to use it. If you install an add-in FDC or the system has no floppy drive, select Disabled in this field. |
| Onboard IDE Controller |
The chipset contains a PCI IDE interface with support for two IDE channels. Select Primary to activate the only primary IDE interface, if you install an add-in secondary interface. Select Both to activate both interfaces, or Disabled to deactivate both interfaces, if you install both a primary and a secondary add-in IDE interface. |
| Onboard Parallel Port |
Select a logical LPT port address and corresponding interrupt for the physical parallel port. |
| Onboard PCI SCSI Chip |
Select Enabled if your system contains a built-in PCI SCSI controller. |
| Onboard Serial Ports (1/2, A/B) |
Select a logical COM port name and matching address for the first and second serial ports.
Select an address and corresponding interrupt for the first and second serial ports. |
| Onboard UART 1/2 |
See Onboard Serial Ports, above. |
| Onboard UART 1/2 Mode |
See UART 2 Mode. Available modes apply to selected serial port. |
| On-Chip IDE Controller |
The integrated peripheral controller contains a IDE interface with support for two IDE channels. Select Enabled to activate the IDE interface. |
| On-Chip IDE First/Second Channel |
The chipset contains a PCI IDE interface with support for two IDE channels. Select Enabled to activate the first and/or second IDE interface. Select Disabled to deactivate an interface, if you install a primary and/or secondary add-in IDE interface. |
| On-Chip Local Bus IDE |
The chipset contains an enhanced IDE interface with two IDE channels. Because each channel supports two IDE devices, the system supports a total of four IDE devices. If your system board has one or two IDE connectors, this option should be Enabled. If you install an add-in IDE interface, disable one or both on-chip IDE channels. |
| On-Chip PCI IDE |
The chipset contains a PCI IDE interface with support for two IDE channels. Select Enabled to activate the IDE interface. Select Disabled to deactivate this interface, if you install a primary and/or secondary add-in IDE interface. You can disable the second IDE interface separately in the IDE Second Channel Control field in the BIOS Features Setup screen. |
| On-Chip Primary/ Secondary PCI IDE |
The integrated peripheral controller contains an IDE interface with support for two IDE channels. Select Enabled to activate each channel separately. |
| OS Select for DRAM > 64MB |
Select OS2 only if you are running OS/2 operating system with greater than 64 MB of RAM on your system. |
| P |
| Page Hit Control |
This function is used for testing the controller. |
| Page Mode Read WS |
Select the correct cycle timing combination for the system board design and Page Mode DRAM specifications. |
| Parallel Port EPP Type |
Select EPP port type 1.7 or 1.9, as required by your parallel peripheral. |
| Parallel Port Mode |
Select an operating mode for the onboard parallel (printer) port. Select Normal, Compatible, or SPP unless you are certain your hardware and software both support one of the other available modes
For information about parallel port modes
and IEEE 1284 - 1994 Standards,
visit Warp Nine Engineering. |
| Passive Release |
When Enabled, CPU to PCI bus accesses are allowed during passive release. Otherwise, the arbiter only accepts another PCI master access to local DRAM. |
| PCI 2.1 Compliance |
Select Enabled to support compliance with PCI specification version 2.1. |
| PCI Arbitration Mode |
The method by which the PCI bus determines which bus master device gains access to the bus. Typically, the system manages or arbitrates access to the PCI bus on a first-come-first-served basis. When priority is rotated, once a device gains control of the bus it is assigned the lowest priority and every other device is moved up one in the priority queue. |
| PCI Burst |
When Enabled, data transfers on the PCI bus, where possible, make use of the high-performance PCI burst protocol, in which greater amounts of data are transferred at a single command.
If the write transaction is a burst transaction, the information goes into the write buffer and burst transfers are later performed on the PCI bus. If the transaction is not a burst, PCI write occurs immediately (after a write buffer flush). VP2 |
| PCI Burst Write Combine |
When this option is Enabled, the chipset assembles long PCI bursts from the data held in these buffers. |
| PCI CLK |
The system board designer selects whether the PCI clock is tightly synchronized with the CPU clock or is asynchronous. |
| PCI Delayed Transaction |
The chipset has an embedded 32-bit posted write buffer to support delay transactions cycles. Select Enabled to support compliance with PCI specification version 2.1. |
| PCI Dynamic Bursting |
When Enabled, every write transaction goes to the write buffer. Burstable transactions then burst on the PCI bus and nonburstable transactions do not. VP2 |
| PCI Fast Back to Back Wr |
When Enabled, the PCI bus interprets CPU read cycles as the PCI burst protocol, so back-to-back sequential CPU memory read cycles addressed to the PCI bus will be translated into fast PCI burst memory cycles. |
| PCI IDE 2nd Channel |
Since your chipset supports a second IDE channel, you can use this selection to enable or disable the second channel. The second channel may connect to a CD-ROM. |
| PCI IDE Controller |
The chipset contains a PCI IDE interface that is permanently configured as the secondary IDE channel. Select Secondary to activate this IDE interface. Select Disabled to deactivate this interface, if you install an add-in secondary IDE interface. |
| PCI IDE IRQ Map to |
This field lets you select PCI IDE IRQ mapping or PC AT (ISA) interrupts. If your system does not have one or two PCI IDE connectors on the system board, select values according to the type of IDE interface(s) installed in your system (PCI or ISA). Standard ISA interrupts for IDE channels are IRQ14 for primary and IRQ15 for secondary. |
| PCI IRQ Activated by |
Leave the IRQ trigger set at Level unless the PCI device assigned to the interrupt specifies Edge-triggered interrupts. |
| PCI Master 0 WS Write |
When Enabled, writes to the PCI bus are executed with zero wait states. |
| PCI Mem Line Read |
When Enabled, PCI Memory Read Line commands fetch full cache lines. When Disabled, a PCI Memory Read Line command results in read partials on the CPU bus. |
| PCI Mem Line Read Prefetch |
When Enabled, PCI Memory Commands fetch a full cache line plus a prefetch of up to three additional full cache lines. Prefetching does not cross 4-KB address boundaries. When Disabled, no line prefetching is performed for PCI Memory Read Line commands. This field is irrelevant if PCI Mem Line Read, above, is Disabled. |
| PCI Passive Release |
When Enabled, CPU to PCI bus accesses are allowed during passive release. Otherwise, the arbiter only accepts another PCI master access to local DRAM. |
| PCI Posted Write Buffer |
You can Enable or Disable the chipset's ability to use a buffer for posted writes initiated on the PCI bus. |
| PCI Preempt Timer |
Set the length of time (in LCLK ticks) before one PCI master preempts another when a service request is pending. |
| PCI Pre-Snoop |
Pre-snooping is a technique by which a PCI master can continue to burst to local memory until a 4K page boundary is reached rather than just a line boundary. |
| PCI Read burst WS |
Select the number of cycles allotted for a PCI master burst read. |
| PCI Slot IDE 2nd Channel |
You may separately disable the second channel on an IDE interface installed in a PCI expansion slot. |
| PCI Timeout |
When Disabled, the PCI cycles is disconnected if the first data access is not completed with 16 PCI clocks. When Enabled, the PCI cycles remains connected, even if the first data access is not completed with 16 PCI clocks. |
| PCI to DRAM Buffer |
Your system supports buffered writes from the PCI bus to DRAM for greater efficiency. |
| PCI to L2 Write Buffer |
The chipset maintains its own internal buffer for PCI-to-external-cache writes. When this buffer is Enabled, PCI write cycles to the external cache are posted to the buffer, so the each device can complete its cycles without waiting for the other. |
| PCI Write Burst |
When Enabled, consecutive PCI write cycles become burst cycles on the PCI bus. |
| PCI Write burst WS |
Select the number of cycles allotted for a PCI master burst write. |
| PCI/VGA Palette Snoop |
Leave this field at Disabled. |
| PCI-To-CPU Write Posting |
When this field is Enabled, writes from the PCI bus to the CPU are buffered, so the PCI bus can continue writing while the CPU is occupied with other processing. When Disabled, the writes are not buffered and the PCI bus must wait until the CPU is free before starting another write cycle. |
| PCI-To-DRAM Pipeline |
DRAM optimization feature: If Enabled, full PCI-to-DRAM write pipelining is enabled. Buffers in the chipset store data written from the PCI bus to memory. When Disabled, PCI writes to DRAM are limited to a single transfer per write cycle. |
| Peer Concurrency |
Peer concurrency means that more than one PCI device can be active at a time. |
| Pipeline |
Select Enabled to enable the cache pipeline function when pipelined synchronous cache SRAM is installed in the system. |
| Pipeline Cache Timing |
For a secondary cache of one bank, select Faster. For a secondary cache of two banks, select Fastest. |
| Pipelined Function |
When Enabled, the controller signals the CPU for a new memory address before all data transfers for the current cycles are complete, resulting in faster performance. |
| PM Control by APM |
If Advanced Power Management (APM) is installed on your system, selecting Yes gives better power savings. |
| PM Events |
You may disable activity monitoring of some common I/O events and interrupt requests so they do not wake up the system. The default wake-up event is keyboard activity.
When On (or named, in the case of LPT & COM), any activity from one of the listed system peripheral devices or IRQs wakes up the system.
A power-management (PM) event awakens the system from, or resets activity timers for, Suspend mode. You can disable monitoring of common interrupt requests so they do not generate PM events. VP2 |
| PM Mode |
Power management is configured for SMI Green mode, which is the mode required by the system CPU. |
| PM wait for APM |
If Advanced Power Management (APM) is installed on your system, selecting Yes gives better power savings. |
| PnP BIOS Auto-Config |
The Award Plug and Play BIOS can automatically configure Plug and Play-compatible devices. If you select Enabled, the Available IRQ fields disappear, because the BIOS automatically handles their configuration. |
| PNP OS Installed |
Select Yes if the system operating environment is Plug-and-Play aware (e.g., Windows 95). |
| Posted PCI Memory Writes |
When this field is Enabled, writes from the PCI bus to memory are posted. This is an intermediate posting. If the CPU and PCI-to-DRAM posted write buffer in enabled, the data is interleaved with CPU write data and posted a second time before being written to DRAM. |
| Power Button Over Ride |
When you select Enabled, pressing the power button for more than 4 seconds forces the system to enter the Soft-Off state when the system has "hung." SIS5597 |
| Power Down Activities |
You may disable monitoring of common interrupt requests so they do not reset activity timers.
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| Power Down and Resume Events |
1 You can disable monitoring of common interrupt requests so they do not awaken the system from, or reset activity timers for, Suspend mode.
2 Select ON if you want an IRQ, when accessed, to reload the original count of the global timer. Selected IRQs also cause the system to wake up from a global Doze, Standby, or Suspend mode when accessed.
The global timer is the hardware timer that counts down to Doze, Standby, and Suspend modes. If a doze timeout is set, the system enters Doze mode when the timeout expires. Then the timer reloads with the standby timeout, if one is set. If not, it reloads with the suspend timeout, if one is set. If not, the timer turns off. The timer works in a similar way for the standby and suspend timeouts. When more than one global timeout is set, the timeouts run one after the other.
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| Power Management |
This option allows you to select the type (or degree) of power saving for Doze, Standby, and Suspend modes.
This table describes each power management mode:
| Max Saving |
Maximum power savings. Only Available for SL CPUs. |
| User Define |
Set each mode individually. |
| Min Saving |
Minimum power savings. |
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| Power Up by Alarm |
When you select Enabled, fields appear that let you set the alarm that returns the system to Full On state. SIS5597 |
| Primary & Secondary IDE INT# |
Each PCI peripheral connection is capable of activating up to four interrupts: INT# A, INT# B, INT# C and INT# D. By default, a PCI connection is assigned INT# A. Assigning INT# B has no meaning unless the peripheral device requires two interrupt services rather than just one. Because the PCI IDE interface in the chipset has two channels, it requires two interrupt services. The primary and secondary IDE INT# fields default to values appropriate for two PCI IDE channels, with the primary PCI IDE channel having a lower interrupt than the secondary. |
| Primary Frame Buffer |
Select a size for the PCI frame buffer. The size of the buffer should not impinge on local memory. |
| PS/2 Mouse Function Control |
If your system has a PS/2 mouse port and you install a serial pointing device, select Disabled. |
| Q |
| Quick Frame Generation |
When the PCI-VL bus bridge is acting as a PCI Master and receiving data from the CPU, a fast CPU-to-PCI buffer is enabled if this selection is also enabled. Using the buffer allows the CPU to complete a write even though the data has not been delivered to the PCI bus. This reduces the number of CPU cycles involved and speeds overall processing. |
| Quick Power On Self Test |
Select Enabled to reduce the amount of time required to run the power-on self-test (POST). A quick POST skips certain steps. We recommend that you normally disable quick POST. Better to find a problem during POST than lose data during your work. |
| R |
| RAMW# Assertion Timing |
RAMW is an output signal to enable local memory writes. The system designer select Normal or Faster (by one timer tick) according to DRAM specifications. |
| RAS Precharge @Access End |
When Enabled, RAS# remains asserted at the end of access ownership. When Disabled, RAS# is deasserted at the end of access ownership. |
RAS Precharge Period
RAS Precharge Time |
The precharge time is the number of cycles it takes for the RAS to accumulate its charge before DRAM refresh. If insufficient time is allowed, refresh may be incomplete and the DRAM may fail to retain data. |
RAS Pulse Width
RAS Pulse Width Refresh |
The system designer must select the number of CPU clock cycles allotted for the RAS pulse refresh, according to DRAM specifications. |
| RAS Timeout |
When RAS timeout is Disabled, a memory refresh cycle is generated every 15 microseconds. Extra refresh cycles are generated when RAS timeout is Enabled. |
| RAS to CAS Delay Timing |
When DRAM is refreshed, both rows and columns are addressed separately. This setup item allows you to determine the timing of the transition from RAS (row address strobe) to CAS (column address strobe). |
| RAS# to CAS# Address Delay |
This field lets you insert a timing delay from the time RAS# is asserted to when Column Address is asserted. |
| RAS# to CAS# Delay |
This field lets you insert a timing delay between the CAS and RAS strobe signals, used when DRAM is written to, read from, or refreshed. Disabled gives faster performance; and Enabled gives more stable performance. |
| Read-Around-Write |
DRAM optimization feature: If a memory read is addressed to a location whose latest write is being held in a buffer before being written to memory, the read is satisfied through the buffer contents, and the read is not sent to the DRAM. |
| Read CAS# Pulse Width |
The system designer must set the number of CPU cycles the CAS signal requires during a DRAM read operation. |
| Read Pipeline |
You may select Enabled for this field when PBSRAMs are installed. Pipelining improves system performance. VP2 |
| Read Prefetch Memory RD |
When this item is Enabled, the system is allowed to prefetch the next read instruction and initiate the next process. |
| Reduce DRAM Leadoff Cycle |
Selecting Enabled optimizes system DRAM performance by shortening the time required before memory read or write operations. The installed DRAM must support a reduced cycle. |
| Refresh Cycle Time (us) |
Select the period required to refresh the DRAMs, according to DRAM specifications. |
| Refresh RAS# Assertion |
Select the number of clock cycles in which RAS# is asserted for refresh cycles. |
| Reload Global Timer Events |
When Enabled, an event occurring on each listed device restarts the global timer for Standby mode.
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| Report No FDD For WIN 95 |
Select Yes to release IRQ6 when the system contains no floppy drive, for compatibility with Windows 95 logo certification. In the Integrated Peripherals screen, select Disabled for the Onboard FDC Controller field. |
| Reset Configuration Data |
Normally, you leave this field Disabled. Select Enabled to reset Extended System Configuration Data (ESCD) when you exit Setup if you have installed a new add-on and the system reconfiguration has caused such a serious conflict that the operating system cannot boot. |
| Resources Controlled By< |
