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    • 31. 发明授权
    • Variable stroke engine
    • 可变行程发动机
    • US06814034B2
    • 2004-11-09
    • US10715829
    • 2003-11-19
    • Yoshikazu YamadaYoshikazu Sato
    • Yoshikazu YamadaYoshikazu Sato
    • F02B7504
    • F02B75/045F02B75/048
    • A variable stroke engine includes: a connecting rod connected at one end to a piston through a piston pin; a subsidiary arm turnably connected at one end to the other end of the connecting rod and connected to a crankshaft through a crankpin; and a control rod connected at one end to the subsidiary arm at a position displaced from a connection position of the connecting rod; a support position of the other end of the control rod being capable of being displaced in a plane perpendicular to an axis of the crankshaft. In the variable stroke engine, a switchover means switches over: a state in which a high expansion stroke is provided such that the stroke of the piston in an expansion stroke is larger than that in a compression stroke when an engine load is high; and a state in which a constant compression ratio is provided when the engine load is low. Thus, a reduction in fuel consumption is achieved irrespective of the level of an engine load, while putting a high value on a reduction in fuel consumption in a state in which the engine load is low.
    • 33. 发明授权
    • Multi-port bridge
    • 多端口桥
    • US5844903A
    • 1998-12-01
    • US734759
    • 1996-10-21
    • Yoshihiko TerashitaYoshikazu SatoNobuyuki Ishigawa
    • Yoshihiko TerashitaYoshikazu SatoNobuyuki Ishigawa
    • H04L12/433H04L12/46H04Q11/04H04L12/66
    • H04Q11/0471H04L12/4612H04L12/4625H04L12/4637H04Q11/0442H04L12/433H04Q2213/13196H04Q2213/13202H04Q2213/13209H04Q2213/13349H04Q2213/13389H04Q2213/13399
    • In accordance with the present invention, there is provided a multi-port bridge where problems in conventional virtual bridging are solved, and especially a multi-port bridge which can be managed with a program that manages only two-port bridges. The multi-port bridge comprises, in terms of hardware, one adapter such a TRN adapter 70 connected to one port 50, other adapters such as other ISDN adapters 71 to 77 connected to a plurality of other ports 51 to 57, and processor 86 for providing virtual bridges and a virtual Token-Ring between one adapter and other adapters. Processor 86 provides by means of a program a virtual bridge module 120 having a bridging function to TRN adapter 70 connected to one port 50, and virtual bridge modules 121 to 127 having a bridging function to other ISDN adapters 71 to 77 connected to ports 51 to 57, respectively. Further, processor 86 provides by means of the program virtual Token-Ring module 128 for coupling these virtual bridge modules 121 to 127.
    • 根据本发明,提供了解决常规虚拟桥接中的问题的多端口桥,特别是可以利用仅管理双端口桥的程序来管理的多端口桥。 多端口桥包括在硬件方面包括一个适配器,例如连接到一个端口50的TRN适配器70,连接到多个其他端口51至57的其他适配器,例如其他ISDN适配器71至77,以及处理器86,用于 在一个适配器和其他适配器之间提供虚拟网桥和虚拟令牌环。 处理器86通过程序提供具有连接到一个端口50的TRN适配器70的桥接功能的虚拟桥模块120以及具有桥接功能的虚拟桥模块121至127,其连接到与端口51至 57。 此外,处理器86借助于程序虚拟令牌环模块128提供用于耦合这些虚拟桥模块121至127。
    • 34. 发明授权
    • Type error checker for type-free or polymorphic computer language
    • 键入错误检查器,用于无类型或多态计算机语言
    • US5748966A
    • 1998-05-05
    • US366894
    • 1994-12-30
    • Yoshikazu Sato
    • Yoshikazu Sato
    • G06F9/45G06F9/445
    • G06F8/437
    • A system and method for a run-time type error in a program prior to running the program whose source code is written in a programming language with imperative constructs and polymorphic procedures is disclosed. To accomplish the above type error checking, the source code is translated into intermediate form representations by an intermediate form translator. In addition to the intermediate form representations, type representations which include predetermined types such as a locking type constructor and an unlocking type constructor are utilized in detecting the run-time type error. When both intermediate form representations and the type representations are used and the source code is determined to have no run-time type error prior to running the program according to the current invention, it is guaranteed that the program will run without any run-time type error.
    • 公开了一种程序运行时类型错误的系统和方法,该程序在运行程序之前,该程序的源代码用编程语言编写,具有强制性构造和多态程序。 为了完成上述类型的错误检查,源代码由中间格式转换器转换成中间格式表示。 除了中间形式表示之外,在检测运行时类型错误时,使用包括预定类型(诸如锁定类型构造器和解锁类型构造器)的类型表示。 当使用中间形式表示和类型表示两者并且根据本发明在运行程序之前确定源代码没有运行时类型错误时,可以保证该程序将在没有任何运行时类型的情况下运行 错误。
    • 35. 发明授权
    • Register allocation system adaptive for pipelining
    • 适用于流水线的寄存器分配系统
    • US5261062A
    • 1993-11-09
    • US607062
    • 1990-10-31
    • Yoshikazu Sato
    • Yoshikazu Sato
    • G06F9/45G06F12/00
    • G06F8/441
    • A computer implemented register allocation for use in preprocessing a program for a system using pipelining, in which real registers are allocated to instructions included in the program, after the allocation of registers, relocation of the plurality of instructions is performed, the plurality of instructions being subsequently executed in parallel to perform an arithmetic operation processing. The register allocation includes determining a number of interferences, which indicates the number of registers simultaneously used by the instructions during the arithmetic operation processing, determining whether the number of interferences exceeds the total number of registers, and if the number of interferences does not exceed the total number of registers, then allocating the instructions to the registers.
    • 一种计算机实现的寄存器分配,用于对使用流水线的系统的程序进行预处理,其中实际寄存器被分配给包括在程序中的指令,在分配寄存器之后,执行多个指令的重定位,多个指令是 随后并行执行以执行算术运算处理。 寄存器分配包括确定干扰次数,其指示在算术运算处理期间由指令同时使用的寄存器的数量,确定干扰的数量是否超过寄存器的总数,并且如果干扰次数不超过 寄存器总数,然后将指令分配给寄存器。