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All system functional components and application serverare represented as server-block. The model takes the server-block as the storage model which combines the advantages of the single address space and the multi-address space technology.
它抛弃了进程/线程概念,采用服务体作为系统的存储模型,融合了多地址空间和单地址空间的构造技术;采用执行流作为系统的运行模型,明确区分并发和并行,利于编写高效程序和支持分布式应用。
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C Supports both Firmware Hub and LPC Memory Read and Write Cycles Auto-detection of FWH and LPC Memory Cycles C Can Be Used as FWH for Intel 8xx, E7xxx, and E8xxx Series Chipsets C Can Be Used as LPC Flash for Non-Intel Chipsets Flexible, Optimized Sectoring for BIOS Applications C 16-Kbyte Top Boot Sector, Two 8-Kbyte Sectors, One 32-Kbyte Sector, Three 64-Kbyte Sectors C Or Memory Array Can Be Divided Into Four Uniform 64-Kbyte Sectors for Erasing Two Configurable Interfaces C FWH/LPC Interface for In-System Operation C Address/Address Multiplexed Interface for Programming during Manufacturing FWH/LPC Interface C Operates with the 33 MHz PCI Bus Clock C 5-signal Communication Interface Supporting Byte Reads and Writes C Two Hardware Write Protect Pins: TBL for Top Boot Sector and WP for All Other Sectors C Five General-purpose Input Pins for System Design Flexibility C Identification Pins for Multiple Device Selection C Sector Locking Registers for Individual Sector Read and Write Protection A/A Mux Interface C 11-pin Multiplexed Address and 8-pin Data Interface C Facilitates Fast In-System or Out-of-System Programming Single Voltage Operation C 3.0V to 3.6V Supply Voltage for Read and Write Operations Industry-Standard Package Options C 32-lead PLCC C 40-lead TSOP
0第0页,本页显示记录0-0,共0条记录分0页显示C支持两种固件中心和LPC内存读取和写入周期自动的FWH和LPC的记忆圈C检测可以用于英特尔8xx系列,E7xxx,E8xxx系列芯片组和C可以用作FWH与至于非英特尔芯片组的BIOS应用柔性优化扇区开放16字节热门引导扇区,两个8 - Kbyte的,一个32字节部门,3个64 - Kbyte的C或存储阵列,线性预测编码闪光可分为四个统一为两个可配置的接口擦除的FWH / LPC接口为64 - Kbyte的行业,系统运行C地址/地址多路复用在制造过程中用于编程接口的FWH /线性预测编码界面C与33 MHz的PCI总线时钟 5信号通信接口进行操作,支持字节读取和写入引导扇区的顶部和WP C两硬件写保护引脚:任务型为所有其他部门 5个通用输入的系统设计的灵活性识别的多种设备选型部门登记销锁定为个别部门读取和写保护的A /阿复用界面C 11引脚复用引脚地址和8引脚的数据界面C促进快速系统内或外的系统编程的单电压3.0V至3.6V的操作供应的读取和写入操作业界标准的封装选项电压 32 -引脚PLCC 40引脚的TSOP
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Uniprocessor designs have built-in bottlenecks.the address and data buses restrict data transfers to a one-at-a-time flow of traffic.the program counter forces instructions to be run in strict sequence.even if improvements in performance are achieved by means of faster processors and more instruction parallelism,operations are still run in strict sequence.however,in a uniprocessor,an increase in processor speed is not the total answer because other factors,such as the system bus and memory,come into play.
单处理器设计有内置的一些瓶颈。地址和数据总线限制数据传输的同时同地址的数据冲突情况。即使是通过更快的处理器和更多的并行指令,当然也包括维护,这些方式来提高的性能,程序的运行仍然被限制在严格的程式规则中。然而,在一个单处理器里,处理器速度的提高时不能完全解决这个问题的,这是因为像系统总线和存储器等其他因素同样在起作用。
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customer interface:客户接口
l 记录客户付款 l 按用户定义周期设立对帐单 l 重新核销收款 l 在线查询 l 建立灵活的帐龄分期 l 用外部索引,如发票号、支票号,进行查询 l 建立集中式对帐单地址 与其它系统的完美集成 使用自动发票(Auto Invoice)和客户接口(Customer Interface),你可以将销售订单
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single address system:单地址系统
single address instruction 单地址指令 | single address system 单地址系统 | single factor method 单因子法
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single factor method:单因子法
single address system 单地址系统 | single factor method 单因子法 | single step method 单步法