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    • 4. 发明申请
    • TRANSPORT SUBSYSTEM FOR AN MBIST CHAIN ARCHITECTURE
    • 用于MBIST链架构的运输子系统
    • US20090307543A1
    • 2009-12-10
    • US12183512
    • 2008-07-31
    • Alexandre AndreevAnatoli BolotovMikhail Grinchuk
    • Alexandre AndreevAnatoli BolotovMikhail Grinchuk
    • G11C29/12G06F11/27
    • G11C29/48G11C29/1201G11C29/26G11C29/32G11C2029/2602G11C2029/5602
    • An apparatus comprising a controller, a plurality of transport circuits and a plurality of memory-controlling circuits. The controller may be configured to (i) present one or more commands and (ii) receive one or more responses. Each of the plurality of transport circuits may be configured to (i) receive one of the commands, (ii) present the responses, and (iii) generate one or more control signals. Each of the plurality of memory-controlling circuits may be (i) coupled to a respective one of the plurality of transport circuits and (ii) configured to (i) generate one or more memory access signals in response to the one or more control signals, (ii) receive one or more memory output signals from a respective memory in response to the one or more memory access signals and (iii) generate the responses in response to the one or more memory output signals. Each respective memory may be independently sized. The controller generally provides a common testing routine for each respective memory that may be adjusted for the size of each respective memory by the memory-controlling circuits.
    • 一种装置,包括控制器,多个传输电路和多个存储器控制电路。 控制器可以被配置为(i)呈现一个或多个命令,并且(ii)接收一个或多个响应。 多个传输电路中的每一个可以被配置为(i)接收命令之一,(ii)呈现响应,以及(iii)产生一个或多个控制信号。 多个存储器控制电路中的每一个可以(i)耦合到多个传输电路中的相应一个,并且(ii)被配置为(i)响应于一个或多个控制信号而产生一个或多个存储器访问信号 ,(ii)响应于所述一个或多个存储器访问信号,从相应存储器接收一个或多个存储器输出信号,以及(iii)响应于所述一个或多个存储器输出信号产生响应。 各个存储器可以独立地定尺寸。 控制器通常为每个相应的存储器提供通用的测试程序,这些存储器可以通过存储器控制电路为每个相应的存储器的大小进行调整。
    • 6. 发明授权
    • Transport subsystem for an MBIST chain architecture
    • 用于MBIST链架构的传输子系统
    • US08046643B2
    • 2011-10-25
    • US12183512
    • 2008-07-31
    • Alexandre AndreevAnatoli BolotovMikhail Grinchuk
    • Alexandre AndreevAnatoli BolotovMikhail Grinchuk
    • G11C29/00G01R31/28
    • G11C29/48G11C29/1201G11C29/26G11C29/32G11C2029/2602G11C2029/5602
    • An apparatus including a controller configured to present one or more commands and receive one or more responses, a plurality of transport circuits configured to receive one of the commands, present the responses, and generate one or more control signals, and a plurality of memory-controlling circuits, each coupled to a respective one of the plurality of transport circuits and configured to generate one or more memory access signals in response to the one or more control signals, receive one or more memory output signals from a respective memory in response to the one or more memory access signals, and generate the responses in response to the one or more memory output signals. Each respective memory may be independently sized. The controller generally provides a common testing routine for each respective memory that may be adjusted for the size of each respective memory by the memory-controlling circuits.
    • 一种装置,包括:控制器,被配置为呈现一个或多个命令并接收一个或多个响应;多个传输电路,被配置为接收命令中的一个,呈现响应,并产生一个或多个控制信号;以及多个存储器 - 控制电路,每个耦合到所述多个传输电路中的相应一个,并被配置为响应于所述一个或多个控制信号而产生一个或多个存储器访问信号,响应于所述控制电路响应于所述控制电路接收来自相应存储器的一个或多个存储器输出信号 一个或多个存储器访问信号,并且响应于一个或多个存储器输出信号而产生响应。 各个存储器可以独立地定尺寸。 控制器通常为每个相应的存储器提供通用的测试程序,这些存储器可以通过存储器控制电路为每个相应的存储器的大小进行调整。
    • 7. 发明申请
    • LOW DEPTH PROGRAMMABLE PRIORITY ENCODERS
    • 低密度可编程优先编码器
    • US20110029980A1
    • 2011-02-03
    • US12902376
    • 2010-10-12
    • Mikhail GrinchukAnatoli BolotovSergei B. GashkovLav D. Ivanovic
    • Mikhail GrinchukAnatoli BolotovSergei B. GashkovLav D. Ivanovic
    • G06F9/46
    • G06F7/74
    • An apparatus having a plurality of first circuits, second circuits, third circuits and fourth circuits is disclosed. The first circuits may be configured to generate a plurality of first signals in response to (i) a priority signal and (ii) a request signal. The second circuits may be configured to generate a plurality of second signals in response to the first signals. The third circuits may be configured to generate a plurality of enable signals in response to the second signals. The fourth circuits may be configured to generate collectively an output signal in response to (i) the enable signals and (ii) the request signal. A combination of the first circuits, the second circuits, the third circuits and the fourth circuits generally establishes a programmable priority encoder. The second signals may be generated independent of the enable signals.
    • 公开了具有多个第一电路,第二电路,第三电路和第四电路的装置。 第一电路可以被配置为响应于(i)优先级信号和(ii)请求信号而产生多个第一信号。 第二电路可以被配置为响应于第一信号而产生多个第二信号。 第三电路可以被配置为响应于第二信号而产生多个使能信号。 第四电路可以被配置为响应于(i)使能信号和(ii)请求信号而一起产生输出信号。 第一电路,第二电路,第三电路和第四电路的组合通常建立可编程优先编码器。 可以独立于使能信号产生第二信号。
    • 8. 发明申请
    • LOW DEPTH PROGRAMMABLE PRIORITY ENCODERS
    • 低密度可编程优先编码器
    • US20100293421A1
    • 2010-11-18
    • US12465810
    • 2009-05-14
    • Mikhail GrinchukAnatoli BolotovSergei B. GashkovLav D. Ivanovic
    • Mikhail GrinchukAnatoli BolotovSergei B. GashkovLav D. Ivanovic
    • G01R31/28
    • G06F7/74
    • An apparatus having a plurality of first circuits, second circuits, third circuits and fourth circuits is disclosed. The first circuits may be configured to generate a plurality of first signals in response to (i) a priority signal and (ii) a request signal. The second circuits may be configured to generate a plurality of second signals in response to the first signals. The third circuits may be configured to generate a plurality of enable signals in response to the second signals. The fourth circuits may be configured to generate collectively an output signal in response to (i) the enable signals and (ii) the request signal. A combination of the first circuits, the second circuits, the third circuits and the fourth circuits generally establishes a programmable priority encoder. The second signals may be generated independent of the enable signals.
    • 公开了具有多个第一电路,第二电路,第三电路和第四电路的装置。 第一电路可以被配置为响应于(i)优先级信号和(ii)请求信号而产生多个第一信号。 第二电路可以被配置为响应于第一信号而产生多个第二信号。 第三电路可以被配置为响应于第二信号而产生多个使能信号。 第四电路可以被配置为响应于(i)使能信号和(ii)请求信号而一起产生输出信号。 第一电路,第二电路,第三电路和第四电路的组合通常建立可编程优先编码器。 可以独立于使能信号产生第二信号。
    • 9. 发明申请
    • Process for designing comparators and adders of small depth
    • 设计较小深度的比较器和加法器的过程
    • US20050005255A1
    • 2005-01-06
    • US10602570
    • 2003-06-24
    • Mikhail GrinchukAnatoli Bolotov
    • Mikhail GrinchukAnatoli Bolotov
    • G06F7/02G06F7/506G06F17/50
    • G06F17/5045G06F7/02G06F7/506
    • Logic circuits for logical operations, based on a function fN=x1 OR (x2 AND (x3 OR (x4 AND . . . xN . . . ))) or f′N=x1 AND (x2 OR (x3 AND (x4 OR . . . xN . . . ))), are designed by defining a top portion of the logic circuit based on a pre-selected pattern of 2-input $ and @ gates. The top portion has N inputs and approximately N/3 outputs. A smaller logic circuit is defined having approximately N/3 inputs coupled to the outputs of the top portion. In one embodiment, the circuit is designed for a circuit having N′ inputs, where N′ is 3n or 2*3n, and the N′-N most significant inputs are set to fixed values. The extra gates are removed resulting in a minimum depth circuit. In another embodiment, the depth is further reduced in some cases by designing a circuit for N-1 inputs and transforming the circuit to an N-input circuit. The $ and @ gates are converted to AND and/or OR gates, depending on the function.
    • 用于逻辑运算的逻辑电路基于函数fN = x1 OR(x2 AND(x3 OR(x4 AND ... xN ...))或f'N = x1 AND(x2 OR(x3 AND(x4 OR。 通过基于2输入$和@门的预先选择的模式来定义逻辑电路的顶部来设计。 顶部有N个输入和大约N / 3个输出。 定义了较小的逻辑电路,其具有耦合到顶部部分的输出的大约N / 3个输入。 在一个实施例中,电路被设计用于具有N'个输入的电路,其中N'是3n或2 * 3n,并且N'-N个最高有效输入被设置为固定值。 额外的门被去除,导致最小的深度电路。 在另一个实施例中,通过设计用于N-1输入的电路并将电路变换成N输入电路,在一些情况下深度进一步降低。 根据功能,$和@门将转换为AND和/或OR门。