存储页

SUPPLY VOLTAGE,+VS to CVS OUTPUT CURRENT, within SOA POWER DISSIPATION, internal INPUT VOLTAGE, differential INPUT VOLTAGE, common mode TEMPERATURE, pin solder-10s TEMPERATURE, junction1 TEMPERATURE RANGE, storage OPERATING TEMPERATURE RANGE, case

0第0页，本页显示记录0-0，共0条记录分0页显示电源电压+比CVS的输出电流，在SOA的耗散功率，内部输入电压，差分输入电压，共模温度，焊针- 10温度，junction1温度范围存储操作温度范围，案件

In embedded system, because the working document store in memory by memory-page, and in flash memory by disk- cluster, this paper designs and implements the working documents' backup/recovery system based on the block data, which has the advantages of high-performance and occupied less system resources.

嵌入式系统中，由于工作文档在内存中以内存页为存储单位进行存放，而在闪存中以磁盘簇为存储单位进行存放，所以本文设计并实现了基于块数据的工作文档备份/恢复系统，该系统在实际运行中具有性能高，占用系统资源少的优点。

Optical pickup is one of the kernels of optical storage industry. It is used for all kinds of optical storage systems widely. It consists of optical collimator system, optical focusing system, servo error signal generating system and the enforce element of servo system .

中文题名DVD光学读取头关键技术研究副题名外文题名 On key technology of DVD pickup 论文作者王继平导师阮玉学科专业物理电子学研究领域\研究方向学位级别博士学位授予单位华中科技大学学位授予日期2003 论文页码总数173页关键词DVD 光学读取头光盘光存储馆藏号BSLW /2003 /TQ597 /2 光学读取头是光存储产业的核心器件，它广泛应用于各类光存储设备中。

Web page : hypertext page compiled with hypertext markup language or other programming languages .

名 在互联网上进行信息查询的信息页。信息以一页一页的方式存储在网上，故称。

For each entry found, the loader goes to the page of storage that contains the machine code instruction to be modified.

对于每个项目中，加载器去的存储页，其中包含的机器代码指令进行修改。

The contents of the course include: what operating system are, what they do, how they are designed, and where they came from; a general history and explanations of computer system, and some discussion on hardware and the relation between operating system and other software; concept of process, process states and process control block, process queue, management of processes; concepts of sequent programming and parallel programming, process synchronization and its application, process communication; scheduling level and job state transition, job scheduling, process scheduling, and methods for scheduling; deadlock and its necessary conditions, deadlock prevention, control and recovery of deadlock; fixed partition, multiple partition and replacement partition memory management, swapping and overlays; page, segmentation and segmentation with paging storage management, basic concept of virtual memory management, and page, segmentation and segmentation with paging memory management.

课程的内容包括：计算机系统概述、操作系统的形成、发展、功能、特性、类型和发展趋势；操作系统的硬件环境、操作系统与其它系统软件的关系；进程的概念、进程的状态和进程控制块、进程队列、进程的管理；顺序程序设计和并行程序设计概念、进程间的同步与互斥、同步机构应用、进程间通信；调度的层次和作业状态转换，作业的调度、进程调度、调度算法；死锁问题的提出、死锁的必要条件、死锁的预防、避免、控制和恢复；固定分区、可复分区、多重分区内存管理技术以及覆盖技术和交换技术；分页域、分段域、段页域存储管理技术、虚拟存储管理的基本概念、分页域、分段域、段页域虚拟存储管理。

Simulation on a virtual storage management hardware address and of a page fault, and advanced treatment of scheduling algorithm, interruption.

详细说明：模拟页式虚拟存储管理中硬件的地址转换和缺页中断，并用先进先出调度算法，处理缺页中断。

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

By analyzing the results of LSNR measurements for samples with different components, and comparing with the media of Aprilis Corporation, we give the suggestion to optimize the material components in the future. In addition, based on the physical mechanism of intra-page crosstalk noise, we proposed the Pixel-Matched Spread Function, and a simplified deconvolution arithmetic to suppress the intra-page crosstalk noise.

另外，在分析数字数据全息存储中页内串扰噪声产生的物理过程的基础上，提出了像元匹配扩散函数的概念，并提出了一个反卷积算法来抑制页内串扰噪声，计算机模拟和实验结果都证明我们提出的PMSF算法可以有效的抑制页内串扰噪声，提高恢复数据页的保真度。

Finally, from the view point of recording high-fidelity data page, we optimized the storage system by using beam shaper in signal beam, and redesigning geometry to increase the uniformity of reference beam. In the final demonstration experiment, we encode 10KB Flash to four data pages, each including 512×512 bits. The data pages are 1:2 pixels matched. These four data pages were stored in a single point in a photopolymer media of Aprilis Corporation by using angle multiplexing method, and successfully retrieved.

根据我们设计的串行二进制数字数据与数据页之间的编解码方法，将一段10KB大小的Flash视频编码为4幅512×512幅面，1：2匹配的数据页，并成功的在美国Aprilis公司光致聚合物材料中完成了这4幅数据页的单点角度复用存储，再现数据页经过偏移补偿算法和PMSF算法处理后的平均原始误码率为2.4×10-4，这样低的误码率完全满足后期软解码的需要，并使得解码后的数据可以满足用户误码率的要求。

CPO Corel：打印存储文件

CPI Microsoft MS-DOS代码页信息文件 | CPO Corel打印存储文件 | CPP C++代码文件

CPO Corel：打印存储文档

CPI Microsoft MS-DOS代码页信息文档 | CPO Corel打印存储文档 | CPP C++代码文档

CPI:MicrosoftMS-DOS：代码页信息文件

CPD,CPE传真覆盖文档 | CPI:MicrosoftMS-DOS代码页信息文件 | CPO:Corel打印存储文件

main memory：主存

也就是说,软中断是不能进入硬件中断部分的,并且软中断在一个cpu上是不可重入的,或者说是串行化的(serialize)存储层次结构和x86存储管理硬件(MMU)高速缓存(cache) --> 主存(main memory) ---> 磁盘(disk)linux采用的是一个体系结构无关的三级页表模型(如图),

flat memory model：平面存储模式

尽管VxD使用32位平面存储模式(flat memory model),但它的代码和数据仍使用分段管理,段有六种类型,即实模式初始化、保护模式初始化、可分页、不可分页、静态和只调试(debug only),每种类型又有代码段和数据段之分,所以VxD共有12个段.

memory page：存储页面

memory operation 存储瀑作 | memory page 存储页面 | memory paging 存储浦页

CPO orel：打印存储文件

CPI Microsoft MS-DOS代码页信息文件 | CPO orel打印存储文件 | CPP C++代码文件

page frame：页帧

它将虚拟地址和物理地址按固定大小(4K)切割成页(page)和页帧(page frame),并且保证页与页帧的大小相同. 在上文中提到,虚拟地址与物理地址要映射. 这个映射的关系, 目前是被 MMU 存储在物理内存上一个被称之为页表(page table)的地方.

RAND：随机

虚拟存储系统同样存在这些问题. (1)调入策略①最优(OPT)算法:选择不再使用或最远的将来才被使用的页,这是理想的算法,但难以实现,常用于淘汰算法的比较. ②随机(RAND)算法:随机地选择被淘汰的页,开销小,但可能选中立即就要访问的页.

thrashing：抖动

6.8 什么是抖动(Thrashing)?一个进程的页面刚刚交换到硬盘马上又需要取回来使用的现 象称为抖动.抖动情况下,处理器大部分时间花费在交换块,而不是执行指令.页替换算法要尽 可能防止抖动发生. 6.9 分页存储管理的优缺点是什么?