VMIVME-7740-840 350-07740-840-M 单个CPU板 VMIVME-7740

VMIC的VMIVME-7740是一款完整的基于奔腾III处理器的计算机,具有单欧洲卡结构的额外优势,并完全兼容VMEbus规范Rev. C.1。VMIVME-7740具有先进的VMEbus接口和双端口到VMEbus的RAM,是多处理器应用的理想选择。
单个CPU板作为标准的PC/AT,执行PC/AT类型的上电自检,然后启动MS-DOS, Windows 95, Windows NT或任何其他PC兼容的操作系统。本手册第3章讨论了VMIVME-7740的标准PC功能。
VMIVME-7740还可作为VMEbus控制器,并通过板载PCI-to-VMEbus桥接和Endian转换硬件与其他VMEbus模块进行交互。

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详情介绍:VMIVME-7740-840 350-07740-840-M 单个CPU板 VMIVME-7740

VMIC的VMIVME-7740是一款完整的基于奔腾III处理器的计算机,具有单欧洲卡结构的额外优势,并完全兼容VMEbus规范Rev. C.1。VMIVME-7740具有先进的VMEbus接口和双端口到VMEbus的RAM,是多处理器应用的理想选择。
单个CPU板作为标准的PC/AT,执行PC/AT类型的上电自检,然后启动MS-DOS, Windows 95, Windows NT或任何其他PC兼容的操作系统。本手册第3章讨论了VMIVME-7740的标准PC功能。
VMIVME-7740还可作为VMEbus控制器,并通过板载PCI-to-VMEbus桥接和Endian转换硬件与其他VMEbus模块进行交互。
VMIVME-7740可以作为VMEbus备板访问。VMEbus功能可通过编程VMIVME-7740的PCI-to-VMEbus桥根据参考定义在本卷和/或在第二卷专用于可选的PCI-to-VMEbus接口板标题:VMIVME-7740 Tundra Universe II™基于VMEbus接口产品手册(文档号500-007740-001)。
在本手册中,所有提到宇宙II的地方都指的是宇宙IIB。
VMIVME-7740程序员可以简单地通过链接到VMEbus中断和控制函数库来快速轻松地控制所有VMEbus函数。
该库可与VMIC的VMISFT-9420 IOWorks Access软件一起使用,适用于Windows NT用户。
VMIVME-7740还提供了典型的PC/ at兼容SBC功能之外的功能,包括通用定时器、可编程看门狗定时器、可启动闪存盘系统和非易失性SRAM。这些特性使该单元成为嵌入式应用的理想选择。这些非标准的PC/AT功能将在本手册的第4章中讨论。

该产品弥合了传统上基于英特尔的PC和基于摩托罗拉的VMEbus控制器的不同世界;因此,可能存在一些对“传统”符号和术语的混淆。通过遵守摩托罗拉/VMEbus世界的典型惯例,尽一切努力使本手册保持一致;不过,这两个阵营的用户都应审查下列说明:
•十六进制数字是摩托罗拉式的,前缀是美元符号:例如$F79。相比之下,根据英特尔惯例,这个相同的数字将被表示为0F79H,或者被许多程序员表示为0xF79。不太常见的形式是F79h或数学家的F7916。
•8位的量称为“字节”,16位的量称为“字”,32位的量称为“长字”。英特尔的惯例是类似的,尽管他们的32位数量通常被称为“双字”。
•摩托罗拉程序员应该注意到,英特尔处理器有一个完全独立于内存总线的I/O总线。手册中已经尽了一切努力来澄清这一点,通过在I/O空间中引用寄存器和逻辑实体,并为I/O地址加上前缀。因此,位于“I/O $140”的寄存器与位于“$140”的寄存器是不一样的,因为后者位于内存总线上,而前者位于I/O总线上。
•英特尔程序员应该注意,本手册中列出的地址使用线性,“平面内存”模型,而不是与英特尔实模式编程相关的旧段偏移模型。因此,段偏移地址为C000:0的ROM芯片将在本手册中被列为地址$C0000。

VMIVME-7740-840

VMIC’s VMIVME-7740 is a complete Pentium III processor-based computer with the additional benefits of single Eurocard construction and full compatibility with the VMEbus Specification Rev. C.1. The VMIVME-7740, with advanced VMEbus interface and RAM that is dual-ported to the VMEbus, is ideal for multiprocessor applications.
The single CPU board functions as a standard PC/AT, executing a PC/AT-type power-on self-test, then boots up MS-DOS, Windows 95, Windows NT, or any other PC compatible operating system. The standard PC features of the VMIVME-7740 are discussed in Chapter 3 of this manual.
The VMIVME-7740 also operates as a VMEbus controller and interacts with other VMEbus modules via the on-board PCI-to-VMEbus bridge and the Endian conversion hardware.
The VMIVME-7740 may be accessed as a VMEbus slave board. The VMEbus functions are available by programming the VMIVME-7740’s PCI-to-VMEbus bridge according to the references defined in this volume and/or in the second volume dedicated to the optional PCI-to-VMEbus interface board titled: VMIVME-7740 Tundra Universe II™-Based VMEbus Interface Product Manual (document No. 500-007740-001).
Throughout this manual, all references to the Universe II refer to the Universe IIB.
The VMIVME-7740 programmer may quickly and easily control all the VMEbus functions simply by linking to a library of VMEbus interrupt and control functions.
This library is available with VMIC’s VMISFT-9420 IOWorks Access software for Windows NT users.
The VMIVME-7740 also provides capabilities beyond the features of a typical PC/AT-compatible SBC including general-purpose timers, a programmable Watchdog Timer, a bootable flash disk system, and nonvolatile SRAM. These features make the unit ideal for embedded applications. These nonstandard PC/AT functions are discussed in Chapter 4 of this manual.

This product bridges the traditionally divergent worlds of Intel-based PC’s and Motorola-based VMEbus controllers; therefore, some confusion over “conventional” notation and terminology may exist. Every effort has been made to make this manual consistent by adhering to conventions typical for the Motorola/VMEbus world; nevertheless, users in both camps should review the following notes:
• Hexadecimal numbers are listed Motorola-style, prefixed with a dollar sign: $F79, for example. By contrast, this same number would be signified 0F79H according to the Intel convention, or 0xF79 by many programmers. Less common are forms such as F79h or the mathematician’s F7916.
• An 8-bit quantity is termed a “byte,” a 16-bit quantity is termed a “word,” and a 32-bit quantity is termed a “longword.” The Intel convention is similar, although their 32-bit quantity is more often called a “doubleword.”
• Motorola programmers should note that Intel processors have an I/O bus that is completely independent from the memory bus. Every effort has been made in the manual to clarify this by referring to registers and logical entities in I/O space by prefixing I/O addresses as such. Thus, a register at “I/O $140” is not the same as a register at “$140,” since the latter is on the memory bus while the former is on the I/O bus.
• Intel programmers should note that addresses are listed in this manual using a linear, “flat-memory” model rather than the old segment:offset model associated with Intel Real Mode programming. Thus, a ROM chip at a segment:offset address of C000:0 will be listed in this manual as being at address $C0000.

热卖型号:VMIVME-7740-840 350-07740-840-M 单个CPU板 VMIVME-7740

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