MVME2400 MOTOROLA 高性能微处理器

低功耗，适用于各种高性能微处理器
应用程序
MVME2400系列VME板提供摩托罗拉PowerPlus II架构的性能和完全定制的能力，以满足需求
您的应用程序需要两个PCI mezz卡(pmc)。的灵活性
的MVME2400提供了一个优秀的基础平台，可以快速
并且可以轻松定制各种特定于行业的应用程序。
利用摩托罗拉的低功耗，高性能的PowerPC 750微处理器，外围组件互连(PCI)总线为板载
外设，处理器/存储器总线到PCI总线桥接，以及VME接口;
MVME2400处理器模块将最佳水平的灵活性和性能集成到单个VME插槽中。
符合IEEE P1386.1的PMC插槽
MVME2400具有双PMC端口，支持
前面板和P2 I/O。P2基于I/ o的pmc
使用时PMC委员会对PCI I/O的建议
VME64扩展连接器将引脚兼容
用MVME2400。
除了提供高性能扩展I/O之外，
符合IEEE P1386.1标准的PMC端口构成了未来几代产品的通用架构。更改I/O需求可以通过简单地替换pmc来满足
重用相同的基础平台，降低长期成本
的所有权。

MVME2400

VME64扩展连接器
为了最大限度地提高MVME2400的能力，5排160-
引脚DIN连接器取代了VME历来用于P1和P2的3排96引脚连接器。两行，Z和D，
在VME P1/J1和P2/J2连接器中添加了什么
为用户提供额外的I/O。VME64扩展
连接器100%向后兼容现有的VME
卡系统。
第二代架构，PowerPlus II架构
处理器和总线架构是否完全优化以获得
PowerPC微处理器的最大性能
PCI总线和VMEbus。添加到
原始的PowerPlus架构包括对100mhz的支持
本地总线操作，以及同步DRAM的使用
(SDRAM)技术。VME的卓越性能
基于PowerPlus II架构的处理器板
不是单一因素造成的。设计中的许多元素
PowerPlus II架构的杰出贡献
性能，包括处理器/内存子系统，
高速本地总线，最佳解耦架构，
将处理器与PCI解耦，以及先进的VME
接口，减少PCI延迟。

MVME2400

Low power consumption, suitable for a variety of high-performance microprocessors
Application program
The MVME2400 Series VME board offers the performance of the MOTOROLA PowerPlus II architecture and the ability to be fully customized to meet the needs
Your application requires two PCI mezz cards (pmc). Flexibility of
The MVME2400 provides an excellent foundation platform that can be fast
And a variety of industry-specific applications can be easily customized.
Utilizing MOTOROLA’s low-power, high-performance PowerPC 750 microprocessor, the Peripheral Component Interconnect (PCI) bus is onboard
Peripherals, processor/memory bus to PCI bus bridge, and VME interface;
The MVME2400 processor module integrates the best level of flexibility and performance into a single VME slot.
PMC slot compliant with IEEE P1386.1
The MVME2400 has dual PMC ports and supports
Front panel and P2 I/O. P2 I/ O-based pmc
PMC Committee recommendations for PCI I/O when used
The VME64 expansion connector will be pin-compatible
Use MVME2400.
In addition to delivering high-performance extended I/O,
The IEEE P1386.1 compliant PMC port forms the common architecture for future generations of products. Changing I/O requirements can be met by simply replacing the pmc
Reuse the same underlying platform to reduce long-term costs
The ownership of.

VME64 expansion connector
To maximize the capabilities of the MVME2400, 5 rows 160-
The pin DIN connector replaces the 3-row 96-pin connector that VME has historically used for P1 and P2. Two lines, Z and D,
What has been added to the VME P1/J1 and P2/J2 connectors
Additional I/O for users. VME64 extension
Connectors are 100% backward compatible with existing Vmes
The card system.
Second generation architecture, PowerPlus II architecture
Whether the processor and bus architecture is fully optimized to obtain
Maximum performance of PowerPC microprocessors
PCI bus and VMEbus. Append to
The original PowerPlus architecture included support for 100mhz
Local bus operation, and the use of synchronous DRAM
(SDRAM) technology. Exceptional performance of VME
Processor board based on PowerPlus II architecture
No single factor is to blame. Many elements in the design
Outstanding contribution of PowerPlus II architecture
Performance, including processor/memory subsystem,
High speed local bus, best decoupled architecture,
Decouple the processor from PCI, and advanced VME
Interface to reduce PCI latency.

MVME2400