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参数资料
| 型号: | IDT70V06S20PF |
| 厂商: | IDT, Integrated Device Technology Inc |
| 文件页数: | 21/23页 |
| 文件大小: | 0K |
| 描述: | IC SRAM 128KBIT 20NS 64TQFP |
| 标准包装: | 45 |
| 格式 - 存储器: | RAM |
| 存储器类型: | SRAM - 双端口,异步 |
| 存储容量: | 128K (16K x 8) |
| 速度: | 20ns |
| 接口: | 并联 |
| 电源电压: | 3 V ~ 3.6 V |
| 工作温度: | 0°C ~ 70°C |
| 封装/外壳: | 64-LQFP |
| 供应商设备封装: | 64-TQFP(14x14) |
| 包装: | 托盘 |
| 其它名称: | 70V06S20PF |
��
�
�IDT70V06S/L�
�High-Speed� 3.3V� 16K� x� 8� Dual-Port� Static� RAM�
�Using� Semaphores—Some� Examples�
�Perhaps� the� simplest� application� of� semaphores� is� their� application� as�
�resource� markers� for� the� IDT70V06’s� Dual-Port� SRAM.� Say� the� 16K� x�
�8� SRAM� was� to� be� divided� into� two� 8K� x� 8� blocks� which� were� to� be�
�dedicated� at� any� one� time� to� servicing� either� the� left� or� right� port.� Semaphore�
�0� could� be� used� to� indicate� the� side� which� would� control� the� lower� section�
�of� memory,� and� Semaphore� 1� could� be� defined� as� the� indicator� for� the�
�upper� section� of� memory.�
�To� take� a� resource,� in� this� example� the� lower� 8K� of� Dual-Port�
�SRAM,� the� processor� on� the� left� port� could� write� and� then� read� a� zero� in�
�to� Semaphore� 0.� If� this� task� were� successfully� completed� (a� zero� was� read�
�back� rather� than� a� one),� the� left� processor� would� assume� control� of� the�
�lower� 8K.� Meanwhile� the� right� processor� was� attempting� to� gain� control� of�
�the� resource� after� the� left� processor,� it� would� read� back� a� one� in� response�
�to� the� zero� it� had� attempted� to� write� into� Semaphore� 0.� At� this� point,� the�
�software� could� choose� to� try� and� gain� control� of� the� second� 8K� section� by�
�writing,� then� reading� a� zero� into� Semaphore� 1.� If� it� succeeded� in� gaining�
�control,� it� would� lock� out� the� left� side.�
�Once� the� left� side� was� finished� with� its� task,� it� would� write� a� one� to�
�Semaphore� 0� and� may� then� try� to� gain� access� to� Semaphore� 1.� If�
�Semaphore� 1� was� still� occupied� by� the� right� side,� the� left� side� could�
�undo� its� semaphore� request� and� perform� other� tasks� until� it� was� able�
�to� write,� then� read� a� zero� into� Semaphore� 1.� If� the� right� processor�
�performs� a� similar� task� with� Semaphore� 0,� this� protocol� would� allow� the�
�two� processors� to� swap� 8K� blocks� of� Dual-Port� SRAM� with� each� other.�
�The� blocks� do� not� have� to� be� any� particular� size� and� can� even� be�
�variable,� depending� upon� the� complexity� of� the� software� using� the�
�semaphore� flags.� All� eight� semaphores� could� be� used� to� divide� the�
�L� PORT�
�SEMAPHORE�
�REQUEST� FLIP� FLOP�
�Industrial� and� Commercial� Temperature� Ranges�
�Dual-Port� SRAM� or� other� shared� resources� into� eight� parts.� Semaphores�
�can� even� be� assigned� different� meanings� on� different� sides� rather� than�
�being� given� a� common� meaning� as� was� shown� in� the� example� above.�
�Semaphores� are� a� useful� form� of� arbitration� in� systems� like� disk�
�interfaces� where� the� CPU� must� be� locked� out� of� a� section� of� memory�
�during� a� transfer� and� the� I/O� device� cannot� tolerate� any� wait� states.�
�With� the� use� of� semaphores,� once� the� two� devices� has� determined�
�which� memory� area� was� “off-limits”� to� the� CPU,� both� the� CPU� and� the�
�I/O� devices� could� access� their� assigned� portions� of� memory� continu-�
�ously� without� any� wait� states.�
�Semaphores� are� also� useful� in� applications� where� no� memory�
�“WAIT”� state� is� available� on� one� or� both� sides.� Once� a� semaphore�
�handshake� has� been� performed,� both� processors� can� access� their�
�assigned� SRAM� segments� at� full� speed.�
�Another� application� is� in� the� area� of� complex� data� structures.� In� this�
�case,� block� arbitration� is� very� important.� For� this� application� one�
�processor� may� be� responsible� for� building� and� updating� a� data�
�structure.� The� other� processor� then� reads� and� interprets� that� data�
�structure.� If� the� interpreting� processor� reads� an� incomplete� data�
�structure,� a� major� error� condition� may� exist.� Therefore,� some� sort� of�
�arbitration� must� be� used� between� the� two� different� processors.� The�
�building� processor� arbitrates� for� the� block,� locks� it� and� then� is� able� to�
�go� in� and� update� the� data� structure.� When� the� update� is� completed,� the�
�data� structure� block� is� released.� This� allows� the� interpreting� processor�
�to� come� back� and� read� the� complete� data� structure,� thereby� guaran-�
�teeing� a� consistent� data� structure.�
�R� PORT�
�SEMAPHORE�
�REQUEST� FLIP� FLOP�
�D� 0�
�D�
�Q�
�Q�
�D�
�D� 0�
�WRITE�
�SEMAPHORE�
�READ�
�WRITE�
�SEMAPHORE�
�READ�
�Figure� 4.� IDT70V06� Semaphore� Logic�
�21�
�6.42�
�2942� drw� 19�
�,�
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| IDT70V06S20PF8 | 功能描述:IC SRAM 128KBIT 20NS 64TQFP RoHS:否 类别:集成电路 (IC) >> 存储器 系列:- 标准包装:45 系列:- 格式 - 存储器:RAM 存储器类型:SRAM - 双端口,异步 存储容量:128K(8K x 16) 速度:15ns 接口:并联 电源电压:3 V ~ 3.6 V 工作温度:0°C ~ 70°C 封装/外壳:100-LQFP 供应商设备封装:100-TQFP(14x14) 包装:托盘 其它名称:70V25S15PF |
| IDT70V06S25G | 功能描述:IC SRAM 128KBIT 25NS 68PGA RoHS:否 类别:集成电路 (IC) >> 存储器 系列:- 标准包装:1,000 系列:- 格式 - 存储器:RAM 存储器类型:SRAM - 双端口,同步 存储容量:1.125M(32K x 36) 速度:5ns 接口:并联 电源电压:3.15 V ~ 3.45 V 工作温度:-40°C ~ 85°C 封装/外壳:256-LBGA 供应商设备封装:256-CABGA(17x17) 包装:带卷 (TR) 其它名称:70V3579S5BCI8 |
| IDT70V06S25J | 功能描述:IC SRAM 128KBIT 25NS 68PLCC RoHS:否 类别:集成电路 (IC) >> 存储器 系列:- 标准包装:45 系列:- 格式 - 存储器:RAM 存储器类型:SRAM - 双端口,异步 存储容量:128K(8K x 16) 速度:15ns 接口:并联 电源电压:3 V ~ 3.6 V 工作温度:0°C ~ 70°C 封装/外壳:100-LQFP 供应商设备封装:100-TQFP(14x14) 包装:托盘 其它名称:70V25S15PF |
| IDT70V06S25J8 | 功能描述:IC SRAM 128KBIT 25NS 68PLCC RoHS:否 类别:集成电路 (IC) >> 存储器 系列:- 标准包装:45 系列:- 格式 - 存储器:RAM 存储器类型:SRAM - 双端口,异步 存储容量:128K(8K x 16) 速度:15ns 接口:并联 电源电压:3 V ~ 3.6 V 工作温度:0°C ~ 70°C 封装/外壳:100-LQFP 供应商设备封装:100-TQFP(14x14) 包装:托盘 其它名称:70V25S15PF |
| IDT70V06S25PF | 功能描述:IC SRAM 128KBIT 25NS 64TQFP RoHS:否 类别:集成电路 (IC) >> 存储器 系列:- 标准包装:45 系列:- 格式 - 存储器:RAM 存储器类型:SRAM - 双端口,异步 存储容量:128K(8K x 16) 速度:15ns 接口:并联 电源电压:3 V ~ 3.6 V 工作温度:0°C ~ 70°C 封装/外壳:100-LQFP 供应商设备封装:100-TQFP(14x14) 包装:托盘 其它名称:70V25S15PF |
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