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    • 2. 发明授权
    • Provably correct storage arrays
    • 提供正确的存储阵列
    • US06279144B1
    • 2001-08-21
    • US09377389
    • 1999-08-19
    • Walter Harvey HenkelsWei HwangRajiv Vasant JoshiAlbert Thomas Williams
    • Walter Harvey HenkelsWei HwangRajiv Vasant JoshiAlbert Thomas Williams
    • G06F1750
    • G01R31/318536Y10S257/903
    • A hardware design technique allows checking of design system language (DSL) specification of an element and schematics of large macros with embedded arrays and registers. The hardware organization reduces CPU time for logical verification by exponential order of magnitude without blowing up a verification process or logic simulation. The hardware organization consists of horizontal word level rather than bit level. A memory array cell comprises a pair of cross-coupled inverters forming a first latch for storing data. The first latch has an output connected to a read bit line. True and complement write word and bit line input to the first latch. A first set of pass gates connects between the true and complement write word and bit line inputs via gates and the input of said first latch. The first set of pass gates is responsive to a first clock via a second pass gate. A pair of cross-coupled inverters forms a second latch of a Level Sensitive Scan Design (LSSD). The second latch has output connected to an LSSD output for design verification. A second pass gate connects between the output of the first set of pass gates and the input of said first latch. The second pass gate is responsive to said first clock. A third pass gate connects between the output of said first latch and the input of said second latch. The third pass gate is responsive to a second clock. The first and second clocks are responsive to a black boxing process for incremental verification.
    • 硬件设计技术允许检查具有嵌入式阵列和寄存器的大型宏的元素和原理图的设计系统语言(DSL)规范。 硬件组织将逻辑验证的CPU时间缩小到指数级数量级,而不会引发验证过程或逻辑仿真。 硬件组织由水平字层而不是位级组成。 存储器阵列单元包括一对交叉耦合的反相器,形成用于存储数据的第一锁存器。 第一个锁存器具有连接到读取位线的输出。 将第一个锁存器的写入字和位线输入为真和补码。 第一组通过门通过门和所述第一锁存器的输入连接在真和补写写字和位线输入之间。 第一组传递门通过第二传递门响应于第一时钟。 一对交叉耦合的反相器形成了级别敏感扫描设计(LSSD)的第二个锁存器。 第二个锁存器具有输出连接到LSSD输出,用于设计验证。 第二传递门连接在第一组通过门的输出和所述第一锁存器的输入之间。 第二传递门响应于所述第一时钟。 第三传输门连接在所述第一锁存器的输出端和所述第二锁存器的输入端之间。 第三传递门响应第二个时钟。 第一和第二时钟响应于黑色加密处理以进行增量验证。