SIMD INTEGER MULTIPLY-ACCUMULATE INSTRUCTION FOR MULTI-PRECISION ARITHMETIC
    2.
    发明申请
    SIMD INTEGER MULTIPLY-ACCUMULATE INSTRUCTION FOR MULTI-PRECISION ARITHMETIC 有权
    用于多精度算术的SIMD整数多项式累积指令

    公开(公告)号:US20140237218A1

    公开(公告)日:2014-08-21

    申请号:US13992728

    申请日:2011-12-19

    IPC分类号: G06F9/30

    摘要: A multiply-and-accumulate (MAC) instruction allows efficient execution of unsigned integer multiplications. The MAC instruction indicates a first vector register as a first operand, a second vector register as a second operand, and a third vector register as a destination. The first vector register stores a first factor, and the second vector register stores a partial sum. The MAC instruction is executed to multiply the first factor with an implicit second factor to generate a product, and to add the partial sum to the product to generate a result. The first factor, the implicit second factor and the partial sum have a same data width and the product has twice the data width. The most significant half of the result is stored in the third vector register, and the least significant half of the result is stored in the second vector register.

    摘要翻译: 乘法和累加(MAC)指令允许有效执行无符号整数乘法。 MAC指令表示作为第一操作数的第一向量寄存器,作为第二操作数的第二向量寄存器和作为目的地的第三向量寄存器。 第一向量寄存器存储第一因子,第二向量寄存器存储部分和。 执行MAC指令以将第一因子与隐式第二因子相乘以生成乘积,并将部分和添加到乘积以生成结果。 第一个因素,隐含的第二个因子和部分和具有相同的数据宽度,产品的数据宽度是两倍。 结果的最大一半存储在第三向量寄存器中,结果的最低有效半存储在第二向量寄存器中。

    INSTRUCTION SET FOR MESSAGE SCHEDULING OF SHA256 ALGORITHM
    3.
    发明申请
    INSTRUCTION SET FOR MESSAGE SCHEDULING OF SHA256 ALGORITHM 有权
    SHA256算法的消息调度指令集

    公开(公告)号:US20140093069A1

    公开(公告)日:2014-04-03

    申请号:US13631165

    申请日:2012-09-28

    IPC分类号: H04L9/28

    摘要: A processor includes a first execution unit to receive and execute a first instruction to process a first part of secure hash algorithm 256 (SHA256) message scheduling operations, the first instruction having a first operand associated with a first storage location to store a first set of message inputs and a second operand associated with a second storage location to store a second set of message inputs. The processor further includes a second execution unit to receive and execute a second instruction to process a second part of the SHA256 message scheduling operations, the second instruction having a third operand associated with a third storage location to store an intermediate result of the first part and a third set of message inputs and a fourth operand associated with a fourth storage location to store a fourth set of message inputs.

    摘要翻译: 处理器包括第一执行单元,用于接收和执行第一指令以处理安全散列算法256(SHA256)消息调度操作的第一部分,所述第一指令具有与第一存储位置相关联的第一操作数,以存储第一组 消息输入和与第二存储位置相关联的第二操作数,以存储第二组消息输入。 所述处理器还包括第二执行单元,用于接收和执行用于处理所述SHA256消息调度操作的第二部分的第二指令,所述第二指令具有与第三存储位置相关联的第三操作数,以存储所述第一部分的中间结果;以及 第三组消息输入和与第四存储位置相关联的第四操作数,以存储第四组消息输入。

    SIMD integer multiply-accumulate instruction for multi-precision arithmetic
    7.
    发明授权
    SIMD integer multiply-accumulate instruction for multi-precision arithmetic 有权
    用于多精度算术的SIMD整数乘法累加指令

    公开(公告)号:US09235414B2

    公开(公告)日:2016-01-12

    申请号:US13992728

    申请日:2011-12-19

    IPC分类号: G06F7/52 G06F9/30 G06F9/38

    摘要: A multiply-and-accumulate (MAC) instruction allows efficient execution of unsigned integer multiplications. The MAC instruction indicates a first vector register as a first operand, a second vector register as a second operand, and a third vector register as a destination. The first vector register stores a first factor, and the second vector register stores a partial sum. The MAC instruction is executed to multiply the first factor with an implicit second factor to generate a product, and to add the partial sum to the product to generate a result. The first factor, the implicit second factor and the partial sum have a same data width and the product has twice the data width. The most significant half of the result is stored in the third vector register, and the least significant half of the result is stored in the second vector register.

    摘要翻译: 乘法和累加(MAC)指令允许有效执行无符号整数乘法。 MAC指令表示作为第一操作数的第一向量寄存器,作为第二操作数的第二向量寄存器和作为目的地的第三向量寄存器。 第一向量寄存器存储第一因子,第二向量寄存器存储部分和。 执行MAC指令以将第一因子与隐含的第二因子相乘以生成乘积,并将部分和添加到乘积以生成结果。 第一个因素,隐含的第二个因子和部分和具有相同的数据宽度,产品的数据宽度是两倍。 结果的最大一半存储在第三向量寄存器中,结果的最低有效半存储在第二向量寄存器中。

    INSTRUCTIONS PROCESSORS, METHODS, AND SYSTEMS TO PROCESS BLAKE SECURE HASHING ALGORITHM
    9.
    发明申请
    INSTRUCTIONS PROCESSORS, METHODS, AND SYSTEMS TO PROCESS BLAKE SECURE HASHING ALGORITHM 有权
    指令处理程序,方法和系统处理BLAKE安全冲洗算法

    公开(公告)号:US20140016773A1

    公开(公告)日:2014-01-16

    申请号:US13976741

    申请日:2011-12-22

    IPC分类号: H04L9/28

    摘要: A method of an aspect includes receiving an instruction indicating a first source having at least one set of four state matrix data elements, which represent a complete set of four inputs to a G function of a cryptographic hashing algorithm. The algorithm uses a sixteen data element state matrix, and alternates between updating data elements in columns and diagonals. The instruction also indicates a second source having data elements that represent message and constant data. In response to the instruction, a result is stored in a destination indicated by the instruction. The result includes updated state matrix data elements including at least one set of four updated state matrix data elements. Each of the four updated state matrix data elements represents a corresponding one of the four state matrix data elements of the first source, which has been updated by the G function.

    摘要翻译: 一种方面的方法包括:接收指示具有至少一组四个状态矩阵数据元素的第一源的指令,其表示对密码散列算法的G函数的四个输入的完整集合。 该算法使用十六个数据元素状态矩阵,并在列和对角线之间更新数据元素。 该指令还指示具有表示消息和常数数据的数据元素的第二源。 响应该指令,结果存储在指令指示的目的地中。 结果包括更新的状态矩阵数据元素,包括至少一组四个更新的状态矩阵数据元素。 四个更新的状态矩阵数据元素中的每一个表示已由G功能更新的第一源的四个状态矩阵数据元素中的相应一个。