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1. 发明申请

US20120198165A1 Mechanism to Update the Status of In-Flight Cache Coherence In a Multi-Level Cache Hierarchy 审中-公开
标题翻译：在多级缓存层次结构中更新飞行中缓存一致性状态的机制
公开(公告)号：US20120198165A1
公开(公告)日：2012-08-02
申请号：US13247247
申请日：2011-09-28
申请人： Raguram Damodaran , Naveen Bhoria , Krishna C. Gurram
发明人： Raguram Damodaran , Naveen Bhoria , Krishna C. Gurram
IPC分类号： G06F12/08
CPC分类号： G06F12/1081 , G06F1/3296 , G06F7/483 , G06F9/3012 , G06F11/1064 , G06F12/0246 , G06F12/0811 , G06F12/0815 , G06F12/12 , G06F13/1605 , G06F13/1652 , G06F13/1657 , G06F13/1663 , G06F13/18 , G06F13/364 , G06F2212/1021 , G06F2212/1032 , G06F2212/221 , G06F2212/2532 , G06F2212/283 , G06F2212/608 , H03K19/0016 , H03K21/00 , H03M13/2903 , H03M13/353 , Y02D10/124 , Y02D10/172 , Y02D50/20
摘要： Separate buffers store snoop writes and direct memory access writes. A multiplexer selects one of these for input to a FIFO buffer. The FIFO buffer is split into multiple FIFOs including: a command FIFO; an address FIFO; and write data FIFO. Each snoop command is compared with an allocated line set and way and deleted on a match to avoid data corruption. Each snoop command is also compared with a victim address. If the snoop address matches victim address logic redirects the snoop command to a victim buffer and the snoop write is completed in the victim buffer.
摘要翻译：单独的缓冲区可以存储窥探写入和直接内存访问写入。多路复用器选择其中一个输入到FIFO缓冲器。 FIFO缓冲区分为多个FIFO，包括：命令FIFO; 地址FIFO; 并写入数据FIFO。将每个snoop命令与分配的行集合和方式进行比较，并在匹配上删除，以避免数据损坏。每个snoop命令也与受害者地址进行比较。如果snoop地址匹配受害者地址逻辑将snoop命令重定向到受害缓冲区，并且snoop写入在受害缓冲区中完成。

2. 发明申请

US20120079155A1 Interleaved Memory Access from Multiple Requesters 审中-公开
标题翻译：多个请求者的交织内存访问
公开(公告)号：US20120079155A1
公开(公告)日：2012-03-29
申请号：US13239065
申请日：2011-09-21
申请人： Raguram Damodaran , Naveen Bhoria
发明人： Raguram Damodaran , Naveen Bhoria
IPC分类号： G06F13/362
CPC分类号： G06F12/1081 , G06F1/3296 , G06F7/483 , G06F9/3012 , G06F11/1064 , G06F12/0246 , G06F12/0811 , G06F12/0815 , G06F12/12 , G06F13/1605 , G06F13/1652 , G06F13/1657 , G06F13/1663 , G06F13/18 , G06F13/364 , G06F2212/1021 , G06F2212/1032 , G06F2212/221 , G06F2212/2532 , G06F2212/283 , G06F2212/608 , H03K19/0016 , H03K21/00 , H03M13/2903 , H03M13/353 , Y02D10/124 , Y02D10/172 , Y02D50/20
摘要： A shared memory system having multiple banks is coupled to a set of requesters. Separate arbitration and control logic is provided for each bank, such that each bank can be accessed individually. The separate arbitration logics individually arbitrate transaction requests targeted to each bank of the memory. Access is granted to each bank on each access cycle to a highest priority request for each bank, such that more than one transaction request may be granted access to the memory on a same access cycle. A wide transaction request that has a transaction width that is wider than a width of one bank is divided into a plurality of divided requests.
摘要翻译：具有多个存储体的共享存储器系统耦合到一组请求器。为每个银行提供单独的仲裁和控制逻辑，以便可以单独访问每个银行。单独的仲裁逻辑单独仲裁针对每个存储器组的事务请求。每个访问周期向每个银行授予访问权限，以便为每个银行提供最高优先级的请求，以便可以在同一访问周期内允许多个事务请求访问存储器。具有比一个银行的宽度更宽的交易宽度的广泛的交易请求被划分为多个划分的请求。

3. 发明申请

US20120198166A1 Memory Attribute Sharing Between Differing Cache Levels of Multilevel Cache 有权
标题翻译：多级缓存的不同缓存级别之间的内存属性共享
公开(公告)号：US20120198166A1
公开(公告)日：2012-08-02
申请号：US13247260
申请日：2011-09-28
申请人： Raguram Damodaran , Joseph Raymond Michael Zbiciak , Naveen Bhoria
发明人： Raguram Damodaran , Joseph Raymond Michael Zbiciak , Naveen Bhoria
IPC分类号： G06F12/08
CPC分类号： G06F12/1081 , G06F1/3296 , G06F7/483 , G06F9/3012 , G06F11/1064 , G06F12/0246 , G06F12/0811 , G06F12/0815 , G06F12/12 , G06F13/1605 , G06F13/1652 , G06F13/1657 , G06F13/1663 , G06F13/18 , G06F13/364 , G06F2212/1021 , G06F2212/1032 , G06F2212/221 , G06F2212/2532 , G06F2212/283 , G06F2212/608 , H03K19/0016 , H03K21/00 , H03M13/2903 , H03M13/353 , Y02D10/124 , Y02D10/172 , Y02D50/20
摘要： The level one memory controller maintains a local copy of the cacheability bit of each memory attribute register. The level two memory controller is the initiator of all configuration read/write requests from the CPU. Whenever a configuration write is made to a memory attribute register, the level one memory controller updates its local copy of the memory attribute register.
摘要翻译：一级存储器控制器维护每个存储器属性寄存器的高速缓存位的本地副本。二级内存控制器是来自CPU的所有配置读/写请求的发起者。每当对存储器属性寄存器进行配置写入时，一级存储器控制器更新其存储器属性寄存器的本地副本。

4. 发明授权

US09189331B2 Programmable address-based write-through cache control 有权
标题翻译：可编程的基于地址的直写缓存控制
公开(公告)号：US09189331B2
公开(公告)日：2015-11-17
申请号：US13247234
申请日：2011-09-28
申请人： Raguram Damodaran , Abhijeet Ashok Chachad , Naveen Bhoria
发明人： Raguram Damodaran , Abhijeet Ashok Chachad , Naveen Bhoria
IPC分类号： G06F12/00 , G06F13/00 , G06F13/28 , G06F11/10 , G06F7/483 , G06F9/30 , H03M13/35 , H03M13/29 , G06F13/16 , G06F13/18 , H03K19/00 , G06F1/32 , H03K21/00 , G06F12/02 , G06F12/12 , G06F13/364
CPC分类号： G06F12/1081 , G06F1/3296 , G06F7/483 , G06F9/3012 , G06F11/1064 , G06F12/0246 , G06F12/0811 , G06F12/0815 , G06F12/12 , G06F13/1605 , G06F13/1652 , G06F13/1657 , G06F13/1663 , G06F13/18 , G06F13/364 , G06F2212/1021 , G06F2212/1032 , G06F2212/221 , G06F2212/2532 , G06F2212/283 , G06F2212/608 , H03K19/0016 , H03K21/00 , H03M13/2903 , H03M13/353 , Y02D10/124 , Y02D10/172 , Y02D50/20
摘要： This invention is a cache system with a memory attribute register having plural entries. Each entry stores a write-through or a write-back indication for a corresponding memory address range. On a write to cached data the cache the cache consults the memory attribute register for the corresponding address range. Writes to addresses in regions marked as write-through always update all levels of the memory hierarchy. Writes to addresses in regions marked as write-back update only the first cache level that can service the write. The memory attribute register is preferably a memory mapped control register writable by the central processing unit.
摘要翻译：本发明是具有多个条目的存储器属性寄存器的缓存系统。每个条目存储对应的存储器地址范围的直写或回写指示。在对高速缓存数据进行写入时，高速缓存会针对相应的地址范围查询存储器属性寄存器。写入写入区域的地址写入将始终更新内存层次结构的所有级别。写入标记为回写的区域中的地址只能更新可以为写入服务的第一个缓存级别。存储器属性寄存器优选地是由中央处理单元可写的存储器映射控制寄存器。

5. 发明授权

US09183084B2 Memory attribute sharing between differing cache levels of multilevel cache 有权
标题翻译：多级缓存的不同缓存级别之间的内存属性共享
公开(公告)号：US09183084B2
公开(公告)日：2015-11-10
申请号：US13247260
申请日：2011-09-28
申请人： Raguram Damodaran , Joseph Raymond Michael Zbiciak , Naveen Bhoria
发明人： Raguram Damodaran , Joseph Raymond Michael Zbiciak , Naveen Bhoria
IPC分类号： G06F12/00 , G06F13/00 , G06F13/28 , G06F11/10 , G06F7/483 , G06F9/30 , H03M13/35 , H03M13/29 , G06F13/16 , G06F13/18 , H03K19/00 , G06F1/32 , H03K21/00 , G06F12/02 , G06F13/364
CPC分类号： G06F12/1081 , G06F1/3296 , G06F7/483 , G06F9/3012 , G06F11/1064 , G06F12/0246 , G06F12/0811 , G06F12/0815 , G06F12/12 , G06F13/1605 , G06F13/1652 , G06F13/1657 , G06F13/1663 , G06F13/18 , G06F13/364 , G06F2212/1021 , G06F2212/1032 , G06F2212/221 , G06F2212/2532 , G06F2212/283 , G06F2212/608 , H03K19/0016 , H03K21/00 , H03M13/2903 , H03M13/353 , Y02D10/124 , Y02D10/172 , Y02D50/20
摘要： The level one memory controller maintains a local copy of the cacheability bit of each memory attribute register. The level two memory controller is the initiator of all configuration read/write requests from the CPU. Whenever a configuration write is made to a memory attribute register, the level one memory controller updates its local copy of the memory attribute register.
摘要翻译：一级存储器控制器维护每个存储器属性寄存器的高速缓存位的本地副本。二级内存控制器是来自CPU的所有配置读/写请求的发起者。每当对存储器属性寄存器进行配置写入时，一级存储器控制器更新其存储器属性寄存器的本地副本。

6. 发明授权

US08732416B2 Requester based transaction status reporting in a system with multi-level memory 有权
标题翻译：在具有多级内存的系统中基于请求者的事务状态报告
公开(公告)号：US08732416B2
公开(公告)日：2014-05-20
申请号：US13239045
申请日：2011-09-21
申请人： Raguram Damodaran , Abhijeet Ashok Chachad , Ramakrishnan Venkatasubramanian , Dheera Balasubramanian , Naveen Bhoria
发明人： Raguram Damodaran , Abhijeet Ashok Chachad , Ramakrishnan Venkatasubramanian , Dheera Balasubramanian , Naveen Bhoria
IPC分类号： G06F13/00 , G06F12/02
CPC分类号： G06F12/1081 , G06F1/3296 , G06F7/483 , G06F9/3012 , G06F11/1064 , G06F12/0246 , G06F12/0811 , G06F12/0815 , G06F12/12 , G06F13/1605 , G06F13/1652 , G06F13/1657 , G06F13/1663 , G06F13/18 , G06F13/364 , G06F2212/1021 , G06F2212/1032 , G06F2212/221 , G06F2212/2532 , G06F2212/283 , G06F2212/608 , H03K19/0016 , H03K21/00 , H03M13/2903 , H03M13/353 , Y02D10/124 , Y02D10/172 , Y02D50/20
摘要： A system has memory resources accessible by a central processing unit (CPU). One or more transaction requests are initiated by the CPU for access to one or more of the memory resources. Initiation of transaction requests is ceased for a period of time. The memory resources are monitored to determine when all of the transaction requests initiated by the CPU have been completed. An idle signal accessible by the CPU is provided that is asserted when all of the transaction requests initiated by the CPU have been completed.
摘要翻译：系统具有可由中央处理单元（CPU）访问的存储器资源。一个或多个事务请求由CPU启动以访问一个或多个存储器资源。交易请求的启动停止一段时间。监视内存资源，以确定CPU启动的所有事务请求何时完成。提供由CPU访问的空闲信号，当由CPU发起的所有事务请求已经完成时，该信号被断言。

7. 发明授权

US08862836B2 Multi-port register file with an input pipelined architecture with asynchronous reads and localized feedback 有权
标题翻译：具有异步读取和本地化反馈的输入流水线架构的多端口寄存器文件
公开(公告)号：US08862836B2
公开(公告)日：2014-10-14
申请号：US13160174
申请日：2011-06-14
申请人： Raguram Damodaran , Ramakrishnan Venkatasubramanian , Naveen Bhoria
发明人： Raguram Damodaran , Ramakrishnan Venkatasubramanian , Naveen Bhoria
IPC分类号： G06F12/00 , G06F13/00 , G06F13/28 , G06F5/00
CPC分类号： G06F5/00 , G06F9/30141 , G11C8/12
摘要： In an embodiment of the invention, a multi-port register file includes write port inputs (e.g. write address, write enable, data input) that are pipelined and synchronous and read port inputs (e.g. read address) that are asynchronous and are not pipelined. Because the write port inputs are pipelined, they are stored in pipelined registers. When data is written to the multi-port register file, data is first written to the pipelined registers during a first clock cycle. On the next clock cycle, data is read from the pipelined registers and written into memory array registers. Which bits of data from a pipelined synchronous data register are written into the multi-port register file is determined by a pipelined synchronous bit-write register. The output of the pipelined synchronous bit-write register selects which inputs of multiplexers contained in registers in the multi-port register file are stored.
摘要翻译：在本发明的一个实施例中，多端口寄存器文件包括流水线的写入端口输入（例如写入地址，写入使能，数据输入）以及不是流水线的同步和读出端口输入（例如，读取地址）。由于写入端口输入是流水线的，所以它们被存储在流水线寄存器中。当数据写入多端口寄存器文件时，数据将在第一个时钟周期内首先写入流水线寄存器。在下一个时钟周期，数据从流水线寄存器读取并写入存储器阵列寄存器。来自流水线同步数据寄存器的哪些数据位被写入多端口寄存器文件由流水线同步位写入寄存器确定。流水线同步位写入寄存器的输出选择存储多端口寄存器文件中寄存器中包含的多路复用器的哪些输入。

8. 发明申请

US20120324175A1 Multi-Port Register File with an Input Pipelined Architecture with Asynchronous Reads and Localized Feedback 有权
标题翻译：具有异步读取和本地化反馈的输入流水线结构的多端口寄存器文件
公开(公告)号：US20120324175A1
公开(公告)日：2012-12-20
申请号：US13160174
申请日：2011-06-14
申请人： Raguram Damodaran , Ramakrishnan Venkatasubramanian , Naveen Bhoria
发明人： Raguram Damodaran , Ramakrishnan Venkatasubramanian , Naveen Bhoria
IPC分类号： G06F12/00
CPC分类号： G06F5/00 , G06F9/30141 , G11C8/12
摘要： In an embodiment of the invention, a multi-port register file includes write port inputs (e.g. write address, write enable, data input) that are pipelined and synchronous and read port inputs (e.g. read address) that are asynchronous and are not pipelined. Because the write port inputs are pipelined, they are stored in pipelined registers. When data is written to the multi-port register file, data is first written to the pipelined registers during a first clock cycle. On the next clock cycle, data is read from the pipelined registers and written into memory array registers. Which bits of data from a pipelined synchronous data register are written into the multi-port register file is determined by a pipelined synchronous bit-write register. The output of the pipelined synchronous bit-write register selects which inputs of multiplexers contained in registers in the multi-port register file are stored.
摘要翻译：在本发明的一个实施例中，多端口寄存器文件包括流水线的写入端口输入（例如写入地址，写入使能，数据输入）以及不是流水线的同步和读出端口输入（例如，读取地址）。由于写入端口输入是流水线的，所以它们被存储在流水线寄存器中。当数据写入多端口寄存器文件时，数据将在第一个时钟周期内首先写入流水线寄存器。在下一个时钟周期，数据从流水线寄存器读取并写入存储器阵列寄存器。来自流水线同步数据寄存器的哪些数据位被写入多端口寄存器文件由流水线同步位写入寄存器确定。流水线同步位写入寄存器的输出选择存储多端口寄存器文件中寄存器中包含的多路复用器的哪些输入。

9. 发明申请

US20120324174A1 Multi-Port Register File with an Input Pipelined Architecture and Asynchronous Read Data Forwarding 有权
标题翻译：具有输入流水线结构和异步读取数据转发的多端口寄存器文件
公开(公告)号：US20120324174A1
公开(公告)日：2012-12-20
申请号：US13160156
申请日：2011-06-14
申请人： Raguram Damodaran , Ramakrishnan Vankatasubramanian , Naveen Bhoria
发明人： Raguram Damodaran , Ramakrishnan Vankatasubramanian , Naveen Bhoria
IPC分类号： G06F12/00
CPC分类号： G06F9/30141 , G06F5/06 , G06F9/3826
摘要： In an embodiment of the invention, a multi-port register file includes write port inputs (e.g. write address, write enable, data input) that are pipelined and synchronous and read port inputs (e.g. read address) that are asynchronous and are not pipelined. Because the write port inputs are pipelined, they are stored in pipelined registers. When data is written to the multi-port register file, data is first written to the pipelined registers during a first clock cycle. On the next clock cycle, data is read from the pipelined registers and written into memory array registers. When the read address is identical to the write address stored in the pipelined memory, the result of a bit-wise ANDing of data stored in pipelined synchronous data registers and data stored in pipelined synchronous bit-wise registers is presented at the output of the multi-port register file.
摘要翻译：在本发明的一个实施例中，多端口寄存器文件包括流水线的写入端口输入（例如写入地址，写入使能，数据输入）以及不是流水线的同步和读出端口输入（例如，读取地址）。由于写入端口输入是流水线的，所以它们被存储在流水线寄存器中。当数据写入多端口寄存器文件时，数据将在第一个时钟周期内首先写入流水线寄存器。在下一个时钟周期，数据从流水线寄存器读取并写入存储器阵列寄存器。当读取地址与存储在流水线存储器中的写入地址相同时，存储在流水线同步数据寄存器中的数据的逐位AND运算结果和存储在流水线同步逐位寄存器中的数据显示在多路复用器的输出端 -port注册文件。

10. 发明授权

US08904249B2 At speed testing of high performance memories with a multi-port BIS engine 有权
标题翻译：在使用多端口BIS引擎的高性能存储器进行速度测试时
公开(公告)号：US08904249B2
公开(公告)日：2014-12-02
申请号：US13447193
申请日：2012-04-14
申请人： Raguram Damodaran , Naveen Bhoria
发明人： Raguram Damodaran , Naveen Bhoria
IPC分类号： G11C29/00
CPC分类号： G11C29/14 , G11C29/48 , G11C2029/0401
摘要： A programmable Built In Self Test (BIST) system used to test embedded memories where the memories may be operating at a clock frequency higher than the operating frequency of the BIST. A plurality of BIST memory ports are used to generate multiple memory test instructions in parallel, and the parallel instructions are then merged to generate a single memory test instruction stream at a speed that is a multiple of the BIST operating frequency.
摘要翻译：一个可编程内建自测（BIST）系统，用于测试嵌入式存储器，其中存储器可能以高于BIST的工作频率的时钟频率工作。多个BIST存储器端口用于并行地产生多个存储器测试指令，然后并行指令被合并以以BIST操作频率的倍数的速度生成单个存储器测试指令流。

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