Intel 281786-002 manual System Memory, EDO Dram, Expansion Slots, PCI 3.3 Volt Capabilities

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SYSTEM MEMORY

The Advanced/ZP baseboard provides four 72-pin SIMM sites for memory expansion. The sockets support 1M x 32 (4 MB), 2M x 32 (8 MB), 4M x 32 (16 MB), and 8M x 32 (32 MB) single-sided or double-sided SIMM modules. Minimum memory size is 8 MB and maximum memory size, using four 8M x 32 SIMM modules, is 128 MB. For external CPU speeds of less than 60 Mhz (used with 75, 90 and 120 Mhz processors) memory timing requires 70 ns fast page devices or, for higher performance, 70 ns EDO DRAM. For external CPU speeds of 66 Mhz (used with 100 Mhz processors) you must use 60 nS EDO DRAM, but 70 nS fast page DRAM may still be used. Parity generation and checking is not supported by the chip set.

The four sockets are arranged as Bank 0 and Bank 1, with each bank consisting of two sockets and providing a 64-bit wide data path. Both SIMMs in a bank must be of the same memory size and type, however Banks 0 and 1 may have different types of memory installed. It is even possible to have 70 ns Fast Page DRAM in one bank and 60 ns EDO DRAM in the other, in which case each bank is independently optimized for maximum performance. Bank 0 only, Bank 1 only, or both banks may be populated. There are no jumper settings required for the memory size or type, which is automatically detected by the system BIOS. Tin lead SIMMs are required to be used when adding Fast Page or EDO DRAM.

EDO DRAM

Extended Data Out (or Hyper Page Mode) DRAM is designed to improve the DRAM read performance. EDO DRAM holds the memory data valid until the next CAS# falling edge, unlike standard fast page mode DRAM which tri-states the memory data when CAS# negates to precharge for the next cycle. With EDO, the CAS# precharge overlaps the data valid time, allowing CAS# to negate earlier while still satisfying the memory data valid window time.

EXPANSION SLOTS

Up to six expansion slots may be populated on the Advanced/ZP baseboard. There are four ISA bus expansion conectors and three PCI expansion connectors. One slot is shared by connectors that will accommodate either an ISA or a PCI expansion card, but not both at the same time. This accounts for the disparity between the number of slots and connectors. All three PCI expansion slots accept PCI bus mastering cards, and fully comply with the PCI 2.10 specification. Three of the ISA slots and one PCI slot can accommodate full length add-in cards. Interference with the processor heat sink and CPU voltage regulator support circuitry limits the rest of the ISA and PCI slots to being able to support only half-length add-in cards.

PCI 3.3 VOLT CAPABILITIES

To maintain strict compliance with the PCI specification, the baseboard provides a connector which can be used to route

3.3volt power to the PCI slots. The connector may be used with a separate 3.3 volt power supply or with a custom designed voltage converter. Note: The on-board 3.3 volt regulator provides power for the CPU, PCIset and L2 cache only, not the PCI slots.

Advanced/ZP Technical Product Summary Page 6

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Contents Advanced/ZP Baby-AT Board Table of Contents Introduction ADVANCED/ZP Form FactorFront Panel Connectors Baseboard DimensionsMounting Hole Placement JUMPERS/SWITCHESCPU Board Level FeaturesPerformance Upgrade Second Level CacheExpansion Slots System MemoryEDO Dram PCI 3.3 Volt Capabilities82438FX Triton Data Path TDP Peripheral Component Interconnect PCI Pciset82437FX Triton System Controller TSC 82371FB PCI ISA/IDE Accelerator PiixNational Semiconductor 87306 Super I/O Controller Real Time CLOCK, Cmos RAM and BatteryIDE Support Keyboard InterfaceIrda Infrared Support System BiosBios Upgrades Flash ImplementationPower Management Setup UtilityPCI AUTO-CONFIGURATION ISA Plug & PlaySecurity Features ConnectorsPower Consumption Back Panel ConnectionsConnections Current WattsAppendix a − User-Installable Upgrades RTC BatterySimm 1,2 Bank Simm 3,4 Bank Total System Memory Appendix B − Jumpers and Switches Processor Voltage Regulation Switch ISA BUS Speed SwitchRecovery Boot Enable J1K1 PCI Configuration Space MAP Appendix D − Memory Map Appendix E − Interrupts & DMA ChannelsAppendix F − Connectors Power Supply Connectors Primary Power J9J1Front Panel Connectors − J2A1, J1B1 Serial Ports j7k1, j7k2 AT Keyboard Connector J8k1FLoppy Connector j9c1 Parallel Port j9e1ISA Connectors J1G1, J2G1, J2G2, J3G1 PCI Connectors J4G1, J5G1, J5G2 Overview of the Setup Keys Appendix G − Bios SetupOverview of the Setup Menu Screens Main ScreenHard Disk Configuration Submenu Floppy Options SubmenuMultiple Sector Setting Initialization TimeoutIDE Translation Mode Number of CylindersBoot Options Submenu Peripheral Configuration Submenu Advanced ScreenPCI IDE Interface Serial Port 2 IR ModeParallel Port Mode Floppy InterfaceAdvanced Chipset Configuration Submenu Power Management ConfigurationPlug and Play Configuration Submenu Administrative and User Access Modes Security ScreenSecurity Screen Options Exit Screen Appendix H − Bios Recovery Using the Upgrade UtilityRecovery Mode Appendix I − Error messages and Beep Codes Error MessagesBeep Codes Plug and Play Error Messages ISA NMI MessagesAppendix J − Environmental Standards Appendix K − Reliability Data

281786-002 specifications

The Intel 281786-002 is a highly regarded microprocessor that was part of Intel’s extensive portfolio of technology solutions. Originally released in the mid-1990s, it is recognized for its robust performance and advanced features, which catered to the needs of both personal computing and embedded systems.

One of the standout features of the Intel 281786-002 is its architecture, which includes a 32-bit data bus. This architecture allows for efficient data processing and memory management. The processor is built on a 0.6-micron process technology, contributing to reduced power consumption while enhancing overall performance. The chip operates at various clock speeds, typically ranging around 25MHz to 50MHz, allowing it to suit different applications and user requirements.

The Intel 281786-002 also boasts a sophisticated instruction set that supports a wide range of operations. This multi-functionality ensures that it can efficiently handle complex computations and multitasking scenarios. Its ability to execute instructions in parallel paves the way for better performance when running multiple applications simultaneously.

In terms of memory support, the processor is designed to interface effectively with both SRAM and DRAM technologies, accommodating a vast range of memory configurations, thereby enhancing flexibility for system designers. It is also compatible with both 16-bit and 32-bit data buses, making it versatile enough for use in various computing environments.

Another notable aspect of the Intel 281786-002 is its integrated security features. These allow for better data protection and integrity, making it a viable choice for systems requiring enhanced security protocols.

Furthermore, the microprocessor's reliability and stability have made it a preferred choice for embedded applications, network devices, and industrial systems. Its proven track record in various computing environments underscores Intel's commitment to quality and performance.

Additionally, the Intel 281786-002 supports various operating systems, providing flexibility in deployment across different computing platforms. This compatibility ensures that users can leverage existing software ecosystems without extensive modifications.

In conclusion, the Intel 281786-002 microprocessor encapsulates an amalgamation of performance, efficiency, and versatility. With its advanced features and robust architecture, it has played a significant role in shaping computing technology, making it a noteworthy component in Intel’s legacy of innovation.