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    • 1. 发明授权
    • Apparatus and method for determining a read level of a flash memory after an inactive period of time
    • 用于在非活动时间段之后确定闪速存储器的读取电平的装置和方法
    • US08644099B2
    • 2014-02-04
    • US13179466
    • 2011-07-08
    • Aldo G. ComettiLun Bin HuangAshot Melik-Martirosian
    • Aldo G. ComettiLun Bin HuangAshot Melik-Martirosian
    • G11C7/00
    • G11C16/26G11C11/5628G11C11/5642G11C16/10
    • Disclosed is an apparatus and method for determining a dwell time in a non-volatile memory circuit after a shutdown of the memory circuit. A voltage shift is calculated by comparing a first read level voltage required to read a test block stored before the shutdown and a second read level voltage required to read a second test block stored after the shutdown. A shutdown time is determined from a look up table indexed by the voltage shift and a number of program/erase cycles. The dwell time is calculated as a function of the drive temperature, a clock, and a block time stamp. Once the dwell time is calculated, a controller calculates a new read level voltage based, in part, on the dwell time and provides one or more programming commands representative of the new read level voltage to the memory circuit to read the memory circuit.
    • 公开了一种用于在存储器电路关闭之后确定非易失性存储器电路中的驻留时间的装置和方法。 通过比较读取在关闭之前存储的测试块所需的第一读取电平电压和读取关闭后存储的第二测试块所需的第二读取电平电平来计算电压偏移。 从由电压偏移索引的查找表和编程/擦除周期数确定停机时间。 停留时间是根据驱动器温度,时钟和块时间戳计算的。 一旦计算了停留时间,控制器就部分地基于驻留时间计算新的读取电平电压,并且向存储器电路提供表示新的读取电平电压的一个或多个编程命令以读取存储器电路。
    • 2. 发明申请
    • APPARATUS AND METHOD FOR DETERMINING A READ LEVEL OF A FLASH MEMORY AFTER AN INACTIVE PERIOD OF TIME
    • 在时间不活动期后确定闪存存储器的读取级别的装置和方法
    • US20120239976A1
    • 2012-09-20
    • US13179466
    • 2011-07-08
    • Aldo G. COMETTILun Bin HuangAshot Melik-Martirosian
    • Aldo G. COMETTILun Bin HuangAshot Melik-Martirosian
    • G06F11/00
    • G11C16/26G11C11/5628G11C11/5642G11C16/10
    • Disclosed is an apparatus and method for determining a dwell time in a non-volatile memory circuit after a shutdown of the memory circuit. A voltage shift is calculated by comparing a first read level voltage required to read a test block stored before the shutdown and a second read level voltage required to read a second test block stored after the shutdown. A shutdown time is determined from a look up table indexed by the voltage shift and a number of program/erase cycles. The dwell time is calculated as a function of the drive temperature, a clock, and a block time stamp. Once the dwell time is calculated, a controller calculates a new read level voltage based, in part, on the dwell time and provides one or more programming commands representative of the new read level voltage to the memory circuit to read the memory circuit.
    • 公开了一种用于在存储器电路关闭之后确定非易失性存储器电路中的驻留时间的装置和方法。 通过比较读取在关闭之前存储的测试块所需的第一读取电平电压和读取关闭后存储的第二测试块所需的第二读取电平电平来计算电压偏移。 从由电压偏移索引的查找表和编程/擦除周期数确定停机时间。 停留时间是根据驱动器温度,时钟和块时间戳计算的。 一旦计算了停留时间,控制器就部分地基于驻留时间计算新的读取电平电压,并且向存储器电路提供表示新的读取电平电压的一个或多个编程命令以读取存储器电路。
    • 6. 发明授权
    • Mechanism to reduce lookup latency in a pipelined hardware implementation of a trie-based IP lookup algorithm
    • 减少基于Trie的IP查找算法的流水线硬件实现中的查找延迟的机制
    • US07924839B2
    • 2011-04-12
    • US10313395
    • 2002-12-06
    • Suresh RajgopalLun Bin HuangNicholas Julian Richardson
    • Suresh RajgopalLun Bin HuangNicholas Julian Richardson
    • H04L12/28
    • G06F17/30985
    • A series of hardware pipeline units each processing a stride during prefix search operations on a multi-bit trie includes, within at least one pipeline unit other than the last pipeline unit, a mechanism for retiring search results from the respective pipeline unit rather than passing the search results through the remaining pipeline units. Early retirement may be triggered by either the absence of subsequent strides to be processed or completion (a miss or end node match) of the search, together with an absence of active search operations in subsequent pipeline units. The early retirement mechanism may be included in those pipeline units corresponding to a last stride for a maximum prefix length shorter than the pipeline (e.g., 20 or 32 bits rather than 64 bits), in pipeline units selected on some other basis, or in every pipeline unit. Worst-case and/or average latency for prefix search operations is reduced.
    • 在多位特务的前缀搜索操作期间,每个处理步幅的一系列硬件流水线单元包括在除了最后一个流水线单元之外的至少一个流水线单元内,用于从相应流水线单元退出搜索结果的机制, 搜索结果通过剩余的管道单位。 提前退休可能是由于缺少要处理或完成的后续步骤(遗漏或结束节点匹配)的搜索,以及后续流水线单元中没有主动搜索操作可能触发。 早期退休机制可以被包括在对应于最后一步的流水线单元中,其最大前缀长度短于流水线(例如,20位或32位,而不是64位),以某种其他方式选择的流水线单元 管道单元。 前缀搜索操作的最差情况和/或平均延迟减少。
    • 7. 发明授权
    • Address range checking circuit and method of operation
    • 地址范围检查电路及操作方法
    • US06694420B2
    • 2004-02-17
    • US10008726
    • 2001-12-05
    • Lun Bin Huang
    • Lun Bin Huang
    • G06F1206
    • G06F9/34G06F7/026G06F12/0875G06F12/0891
    • An address range checking circuit capable of determining if a target address, A[M:0], is within an address space having 2N address locations beginning at a base address location, B[M:0], is disclosed, wherein the address range checking circuit does not require a large comparator circuit. The address range checking circuit comprises: 1) comparison circuitry for determining if the address segment A[N−1:0] is less than the address segment B[N−1:0] and generating on a first control signal; 2) first equivalence detection circuitry for determining if the address segment A[M:N] is equal to the address segment B[M:N] and generating an A=B status signal; 3) second equivalence detection circuitry for determining if the address segment A[M:N] is equal to the address segment B[M:N] plus one and generating an A=B+1 status signal; and 4) a multiplexer that outputs the A=B status signal or the A=B+1 status signal depending on the value of the first control signal.
    • 公开了一种地址范围检查电路,其能够确定目标地址A [M:0]是否在从基地址位置B [M:0]开始的具有2个N个地址位置的地址空间内,其中 地址范围检查电路不需要较大的比较器电路。 地址范围检查电路包括:1)用于确定地址段A [N-1:0]是否小于地址段B [N-1:0]并产生第一控制信号的比较电路; 2)用于确定地址段A [M:N]是否等于地址段B [M:N]并产生A = B状态信号的第一等价检测电路; 3)第二等效检测电路,用于确定地址段A [M:N]是否等于地址段B [M:N]加1,并产生A = B + 1状态信号; 以及4)多路复用器,其根据第一控制信号的值输出A = B状态信号或A = B + 1状态信号。