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    • 1. 发明授权
    • Automatic logic designing method and system
    • 自动逻辑设计方法和系统
    • US5504690A
    • 1996-04-02
    • US108044
    • 1993-08-16
    • Naohiro KageyamaToru ShonaiRikako SuzukiTakashi OkadaKazuhiko IijimaHiroyuki NakajimaChihei MiuraTsuguo Shimizu
    • Naohiro KageyamaToru ShonaiRikako SuzukiTakashi OkadaKazuhiko IijimaHiroyuki NakajimaChihei MiuraTsuguo Shimizu
    • G06F17/50
    • G06F17/5045
    • An automatic logic designing method and system in which a control table describing a condition and a behavior corresponding to the condition which express the specification of a computer is inputted and processed in a processor so that a logic circuit having no redundancy which can be easily seen by the designer is designed at a high speed. The control table is converted into the logic circuit whose function is expressed by a detailed Boolean expression. In an instance, selector logics are allocated in consideration of the polarity of the logic. A redundancy detection process or a redundancy logic elimination process is executed for the redundancy logics designated by a redundancy indicate file. A signal name which can be easily understood by the logic designer is formed. An implementing system includes an input control table file, a functional structure converting section of a conditional equation and a behavioral structure, a regular logic expanding processing section, and a redundancy logic elimination processing section, so that the logic circuit formed is outputted to a Boolean expression file.
    • 一种自动逻辑设计方法和系统,其中描述与表达计算机的规格的条件相对应的条件和行为的控制表在处理器中被输入和处理,使得不具有冗余的逻辑电路可以容易地被 设计师是高速设计的。 控制表转换为逻辑电路,其功能由详细的布尔表达式表示。 在一种情况下,考虑到逻辑的极性来分配选择器逻辑。 对由冗余指示文件指定的冗余逻辑执行冗余检测处理或冗余逻辑消除处理。 可以形成由逻辑设计者容易理解的信号名称。 实现系统包括输入控制表文件,条件方程式的功能结构转换部分和行为结构,规则逻辑扩展处理部分和冗余逻辑消除处理部分,使得形成的逻辑电路输出到布尔值 表达文件。
    • 2. 发明授权
    • Method and apparatus of out-of-order transaction processing using request side queue pointer and response side queue pointer
    • 使用请求侧队列指针和响应端队列指针进行乱序事务处理的方法和装置
    • US06591325B1
    • 2003-07-08
    • US09547392
    • 2000-04-11
    • Hideya AkashiYuji TsushimaKeitaro UeharaNaoki HamanakaToru ShonaiTetsuhiko OkadaMasamori Kashiyama
    • Hideya AkashiYuji TsushimaKeitaro UeharaNaoki HamanakaToru ShonaiTetsuhiko OkadaMasamori Kashiyama
    • G06F1314
    • G06F13/4204
    • An information processing system that transfers transactions between a plurality of system modules. A request side interface unit in a request side module has a request ID queue in which issued request transactions are stored in order of issuance. A request side queue pointer points to an entry in this request ID queue corresponding to a response transaction to be accepted next. A response side interface unit in a response side module has a response queue in which accepted request transactions are stored in order of acceptance. A response side queue pointer points to an entry in this response queue corresponding to a response transaction to be issued next. Therefore, a request transaction and the corresponding response transaction are transferred between the request side interface unit and the response side interface unit without transferring transaction IDs. When the response order is changed, the response side interface unit issues a command, which changes the value of the request side queue pointer, to inform the request side interface unit of the change in the order.
    • 一种在多个系统模块之间传送交易的信息处理系统。 请求侧模块中的请求侧接口单元具有请求ID队列,其中发出的请求事务按照发布的顺序存储。 请求侧队列指针指向与要接受的响应事务相对应的该请求ID队列中的条目。 响应侧模块中的响应侧接口单元具有响应队列,其中接受请求事务按接受顺序存储。 响应侧队列指针指向对应于接下来要发出的响应事务的该响应队列中的条目。 因此,在请求侧接口单元和响应侧接口单元之间传送请求事务和相应的响应事务,而不转移事务ID。 当响应顺序改变时,响应侧接口单元发出改变请求侧队列指针的值的命令,以通知请求侧接口单元的顺序改变。
    • 7. 发明授权
    • Shared memory multiprocessor performing cache coherence control and node controller therefor
    • 共享内存多处理器执行高速缓存一致性控制和节点控制器
    • US06636926B2
    • 2003-10-21
    • US09740816
    • 2000-12-21
    • Yoshiko YasudaNaoki HamanakaToru ShonaiHideya AkashiYuji TsushimaKeitaro Uehara
    • Yoshiko YasudaNaoki HamanakaToru ShonaiHideya AkashiYuji TsushimaKeitaro Uehara
    • G06F1300
    • G06F12/0813G06F12/0833G06F2212/1016
    • Each node includes a node controller for decoding the control information and the address information for the access request issued by a processor or an I/O device, generating, based on the result of decoding, the cache coherence control information indicating whether the cache coherence control is required or not, the node information and the unit information for the transfer destination, and adding these information to the access request. An intra-node connection circuit for connecting the units in the node controller holds the cache coherence control information, the node information and the unit information added to the access request. When the cache coherence control information indicates that the cache coherence control is not required and the node information indicates the local node, then the intra-node connection circuit transfers the access request not to the inter-node connection circuit interconnecting the nodes but directly to the unit designated by the unit information.
    • 每个节点包括用于解码由处理器或I / O设备发出的访问请求的控制信息和地址信息的节点控制器,基于解码结果生成指示高速缓存一致性控制的高速缓存一致性控制信息 是否需要节点信息和传输目的地的单位信息,并将这些信息添加到访问请求。 用于连接节点控制器中的单元的节点内连接电路保持高速缓存一致性控制信息,节点信息和添加到访问请求的单元信息。 当高速缓存一致性控制信息指示不需要高速缓存一致性控制并且节点信息指示本地节点时,节点内连接电路不是将互连节点的节点间连接电路的访问请求传送到节点间连接电路,而是直接连接到 单位由单位信息指定。
    • 8. 发明授权
    • Shared memory multiprocessor performing cache coherency
    • 共享内存多处理器执行高速缓存一致性
    • US06546471B1
    • 2003-04-08
    • US09506810
    • 2000-02-18
    • Toshiaki TaruiKoichi OkazawaYasuyuki OkadaToru ShonaiToshio OkochiHideya Akashi
    • Toshiaki TaruiKoichi OkazawaYasuyuki OkadaToru ShonaiToshio OkochiHideya Akashi
    • G06F1314
    • G06F12/0826G06F12/0284G06F2212/2542
    • A shared memory multiprocessor (SMP) has efficient access to a main memory included in a particular node and a management of partitions that include the nodes. In correspondence with each page of main memory included in a node, a bit stored in a register indicates if the page has been accessed from any other node. In a case where the bit is “0”, a cache coherent command to be sent to the other nodes is not transmitted. The bit is reset by software at the time of initialization and memory allocation, and it is set by hardware when the page of the main memory is accessed from any other node. In a case where the interior of an SMP is divided into partitions, the main memory of each node is divided into local and shared areas, for which respectively separate addresses can be designated. In each node, the configuration information items of the shared area and the local area are stored in registers. The command of access to the shared area is multicast to all of the nodes, whereas the command is multicast only to the nodes within the corresponding partition when the local area is accessed.
    • 共享存储器多处理器(SMP)具有对包括在特定节点中的主存储器的有效访问以及包括节点的分区的管理。 与包含在节点中的主存储器的每页对应,存储在寄存器中的位指示是否已经从任何其他节点访问了页面。 在比特为“0”的情况下,不发送要发送到其他节点的高速缓存相干命令。 该位在初始化和内存分配时由软件复位,当从任何其他节点访问主存储器的页面时,该位由硬件置1。 在将SMP的内部划分成分区的情况下,将各节点的主存储器划分为本地区域和共享区域,分别分别分配地址。 在每个节点中,共享区域和局部区域的配置信息项存储在寄存器中。 访问共享区域的命令是组播到所有节点,而当访问本地区域时,该命令仅组播到相应分区内的节点。
    • 10. 发明授权
    • Shared memory multiprocessor system
    • 共享内存多处理器系统
    • US07206818B2
    • 2007-04-17
    • US10632856
    • 2003-08-04
    • Toshio OkochiToru ShonaiNaoki HamanakaNaohiko IrieHideya Akashi
    • Toshio OkochiToru ShonaiNaoki HamanakaNaohiko IrieHideya Akashi
    • G06F15/167
    • G06F15/167G06F2212/682
    • Multiprocessor system, having a translation lookaside buffer (TLB) in each processor, and having a structure for avoiding TLB purge overhead. Each processor node is provided with a partial main memory and a physical page map table (PPT). The PPT stores mapping between physical page number of main memory and virtual page number. Every memory access transaction for other node specifies physical address and virtual page number. Instead of strictly maintaining TLB coherency by broadcasting TLB purge transaction, an access destination node checks the coincidence between the virtual page number specified in the memory access transaction and the virtual page number mapped in the PPT when the transaction is received. If both are coincident, the memory access is executed. If not coincident, an error message is transferred to an access requesting source.
    • 在每个处理器中具有翻译后备缓冲器(TLB)的多处理器系统,并具有用于避免TLB清除开销的结构。 每个处理器节点设置有部分主存储器和物理页映射表(PPT)。 PPT存储主存储器的物理页数和虚拟页码之间的映射。 其他节点的每个内存访问事务都指定物理地址和虚拟页码。 访问目的地节点不是通过广播TLB清除事务来严格维护TLB一致性,而是在接收事务时检查在存储器访问事务中指定的虚拟页号与在PPT中映射的虚拟页号之间的一致性。 如果两者都一致,则执行存储器访问。 如果不一致,则将错误消息传送到请求访问源。