会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Method and apparatus for restoring data in a non-volatile memory
    • 用于在非易失性存储器中恢复数据的方法和装置
    • US08238169B2
    • 2012-08-07
    • US13027621
    • 2011-02-15
    • Jeong Y. ChoiStephen Fung
    • Jeong Y. ChoiStephen Fung
    • G11C16/06
    • G11C16/3418G06F11/1068G11C2029/0411
    • A method and apparatus for selectively restoring data in a non-volatile memory array based on failure type. Weakened data and erroneous data are identified by performing two readings of a specific memory section. Alternatively, an error correction code is used after a first reading of data to identify erroneous data. The manner in which data is restored will depend on whether the data changed because of an erase failure or a program failure. If only a program failure occurred then the data will be reprogrammed without an intervening erase step. If the data experienced an erase failure, then the data will be erased prior to being programmed with correct data.
    • 一种用于基于故障类型选择性地恢复非易失性存储器阵列中的数据的方法和装置。 通过执行特定存储器部分的两个读数来识别弱数据和错误数据。 或者,在首次读取数据之后使用纠错码来识别错误数据。 数据恢复的方式取决于数据是否因擦除故障或程序故障而改变。 如果仅发生程序故障,则数据将被重新编程,而无需中间擦除步骤。 如果数据经历擦除故障,则在使用正确的数据编程之前,数据将被擦除。
    • 2. 发明授权
    • Hot-carrier device degradation modeling and extraction methodologies
    • 热载体降解建模和提取方法
    • US07567891B1
    • 2009-07-28
    • US09969185
    • 2001-09-27
    • Zhihong LiuLifeng WuJeong Y. ChoiPing ChenAlvin I. ChenGang Zhang
    • Zhihong LiuLifeng WuJeong Y. ChoiPing ChenAlvin I. ChenGang Zhang
    • G06F7/60G06F17/50G06F9/45G01R15/00G01R27/28G01R27/26H03K19/20H03K19/094
    • G06F17/5036G01R31/2848G06F2217/78
    • The present invention is directed to a number of improvements in methods for hot-carrier device degradation modeling and extraction. Several improvements are presented for the improvement of building device degradation models, including allowing the user to select a device parameter used to build the device degradation model independent of the device parameter selected. The user can also select the functional relation between stress time and degradation level. To further improve accuracy, multiple acceleration parameters can be used to account for different regions of the degradation process. Analytical functions may be used to represent aged device model parameters, either directly or by fitting measured device parameters versus device age values, allowing devices with different age values to share the same device model. The concept of binning is extended to include device degradation. In addition to a binning based on device width and length, age is added. In an exemplary embodiment, only devices with minimum channel length have degraded models constructed. The present invention also allows the degradation of one device parameter to be determined based on an age value derived from another parameter. In yet another aspect, a degraded device is modeled as a fresh device with a voltage source connected to a terminal.
    • 本发明涉及用于热载体装置降解建模和提取的方法的许多改进。 提出了改进建筑设备劣化模型的几个改进,包括允许用户选择用于构建设备退化模型的设备参数,而不依赖于所选择的设备参数。 用户还可以选择应力时间与劣化水平之间的功能关系。 为了进一步提高精度,可以使用多个加速参数来解释退化过程的不同区域。 分析功能可以直接表示老化的设备模型参数,也可以通过拟合测量的设备参数与设备寿命值进行比较,从而允许具有不同年龄值的设备共享相同的设备型号。 分箱的概念被扩展到包括设备退化。 除了基于设备宽度和长度的分类,还添加了年龄。 在示例性实施例中,只有具有最小信道长度的设备具有构造的退化模型。 本发明还允许基于从另一参数导出的年龄值来确定一个设备参数的劣化。 在另一方面,劣化设备被建模为具有连接到终端的电压源的新设备。
    • 3. 发明授权
    • Hot carrier circuit reliability simulation
    • 热载体电路可靠性仿真
    • US07292968B2
    • 2007-11-06
    • US09832933
    • 2001-04-11
    • Lifeng WuZhihong LiuAlvin I. ChenJeong Y. ChoiBruce W. McGaughy
    • Lifeng WuZhihong LiuAlvin I. ChenJeong Y. ChoiBruce W. McGaughy
    • G06F17/50G06F9/44
    • G06F17/5036
    • The present invention is directed to a number of improvements in methods for reliability simulations in aged circuits whose operation has been degraded through hot-carrier or other effects. A plurality of different circuit stress times can be simulated within a single run. Different aging criteria may be used for different circuit blocks, circuit block types, devices, device models and device types. The user may specify the degradation of selected circuit blocks, circuit block types, devices, device models and device types independently of the simulation. Device degradation can be characterized in tables. Continuous degradation levels can be quantized. Techniques are also described for representing the aged device in the netlist as the fresh device augmented with a plurality of independent current sources connected between its terminals to mimic the effects of aging in the device. The use of device model cards with age parameters is also described. To further improve the circuit reliability simulation, a gradual or multi-step aging is used instead of the standard one step aging process. Many of these features can be embedded within the circuit simulator. A user data interface is also presented to implement these techniques and further allow users to enter their device models not presented in the simulator. For example, a proprietary model of, say, the substrate current in an NMOS could used be with a SPICE simulator employing a different model to simulate the aging of the circuit.
    • 本发明涉及在老化电路中的可靠性模拟方法的许多改进,其操作已经通过热载波或其它效应而降级。 可以在单次运行中模拟多个不同的电路应力时间。 不同的老化标准可用于不同的电路块,电路块类型,器件,器件型号和器件类型。 用户可以独立于模拟来指定所选择的电路块,电路块类型,设备,设备模型和设备类型的劣化。 器件劣化可以在表中进行表征。 可以量化连续降解水平。 还描述了用于在网表中表示老化设备的技术,因为新设备通过连接在其终端之间的多个独立电流源来增强,以模拟设备中的老化的影响。 还描述了使用具有年龄参数的设备型号卡。 为了进一步提高电路可靠性仿真,采用逐步或多步老化代替标准的一步老化过程。 这些功能中的许多可以嵌入在电路仿真器中。 还呈现用户数据接口以实现这些技术,并且进一步允许用户输入其未在模拟器中呈现的设备模型。 例如,一个专有的模型,例如NMOS中的衬底电流可以用SPICE仿真器使用不同的模型来模拟电路的老化。
    • 6. 发明申请
    • Method and Apparatus for Restoring Data in a Non-Volatile Memory
    • 用于在非易失性存储器中恢复数据的方法和装置
    • US20110141812A1
    • 2011-06-16
    • US13027621
    • 2011-02-15
    • Jeong Y. ChoiStephen Fung
    • Jeong Y. ChoiStephen Fung
    • G11C16/06
    • G11C16/3418G06F11/1068G11C2029/0411
    • A method and apparatus for selectively restoring data in a non-volatile memory array based on failure type. Weakened data and erroneous data are identified by performing two readings of a specific memory section. Alternatively, an error correction code is used after a first reading of data to identify erroneous data. The manner in which data is restored will depend on whether the data changed because of an erase failure or a program failure. If only a program failure occurred then the data will be reprogrammed without an intervening erase step. If the data experienced an erase failure, then the data will be erased prior to being programmed with correct data.
    • 一种用于基于故障类型选择性地恢复非易失性存储器阵列中的数据的方法和装置。 通过执行特定存储器部分的两个读数来识别弱数据和错误数据。 或者,在首次读取数据之后使用纠错码来识别错误数据。 数据恢复的方式取决于数据是否因擦除故障或程序故障而改变。 如果仅发生程序故障,则数据将被重新编程,而无需中间擦除步骤。 如果数据经历擦除故障,则在使用正确的数据编程之前,数据将被擦除。
    • 7. 发明授权
    • Embedded DRAM with bias-independent capacitance
    • 具有偏置独立电容的嵌入式DRAM
    • US07929359B2
    • 2011-04-19
    • US12291762
    • 2008-11-13
    • Jae Hong JeongJeong Y. Choi
    • Jae Hong JeongJeong Y. Choi
    • G11C5/14G11C11/24G11C8/00
    • H01L27/105G11C8/08G11C11/404H01L27/10897
    • An embedded memory system that includes DRAM cells and logic transistors. The capacitor of the embedded memory responds to a positive bias voltage of ½ Vdd. The wordline driver of a p-channel access transistor applying the positive power supply voltage when the p-channel access FET is not being accessed and a voltage lower than the threshold voltage of the p-channel access FET is being accessed. For DRAM cells containing an n-channel access FET, the wordline driver applies either a negative voltage or the ground voltage to the n-channel access FET when the DRAM cell is not being accessed. A second voltage composed of Vdd and a boosted voltage is applied to the n-channel FET when the DRAM cell is being accessed.
    • 包括DRAM单元和逻辑晶体管的嵌入式存储器系统。 嵌入式存储器的电容器响应½Vdd的正偏置电压。 p沟道存取晶体管的字线驱动器在p沟道存取FET未被访问时施加正电源电压,并且正在访问低于p沟道存取FET的阈值电压的电压。 对于包含n沟道存取FET的DRAM单元,当DRAM单元未被访问时,字线驱动器向n沟道存取FET施加负电压或接地电压。 当DRAM单元被访问时,由Vdd和升压电压构成的第二电压被施加到n沟道FET。
    • 10. 发明申请
    • Hot-Carrier Device Degradation Modeling and Extraction Methodologies
    • 热载体装置降解建模和提取方法
    • US20090299716A1
    • 2009-12-03
    • US12486191
    • 2009-06-17
    • Zhihong LiuLifeng WuJeong Y. ChoiPing ChenAlvin I. ChenGang Zhang
    • Zhihong LiuLifeng WuJeong Y. ChoiPing ChenAlvin I. ChenGang Zhang
    • G06F17/50G01R31/26
    • G06F17/5036G01R31/2848G06F2217/78
    • The present invention is directed to a number of improvements in methods for hot-carrier device degradation modeling and extraction. Several improvements are presented for the improvement of building device degradation models, including allowing the user to select a device parameter used to build the device degradation model independent of the device parameter selected. The user can also select the functional relation between stress time and degradation level. To further improve accuracy, multiple acceleration parameters can be used to account for different regions of the degradation process. Analytical functions may be used to represent aged device model parameters, either directly or by fitting measured device parameters versus device age values, allowing devices with different age values to share the same device model. The concept of binning is extended to include device degradation. In addition to a binning based on device width and length, age is added. In an exemplary embodiment, only devices with minimum channel length have degraded models constructed. The present invention also allows the degradation of one device parameter to be determined based on an age value derived from another parameter. In yet another aspect, a degraded device is modeled as a fresh device with a voltage source connected to a terminal.
    • 本发明涉及用于热载体装置降解建模和提取的方法的许多改进。 提出了改进建筑设备劣化模型的几个改进,包括允许用户选择用于构建设备退化模型的设备参数,而不依赖于所选择的设备参数。 用户还可以选择应力时间与劣化水平之间的功能关系。 为了进一步提高精度,可以使用多个加速参数来解释退化过程的不同区域。 分析功能可以直接表示老化的设备模型参数,也可以通过拟合测量的设备参数与设备寿命值进行比较,从而允许具有不同年龄值的设备共享相同的设备型号。 分箱的概念被扩展到包括设备退化。 除了基于设备宽度和长度的分类,还添加了年龄。 在示例性实施例中,只有具有最小信道长度的设备具有构造的退化模型。 本发明还允许基于从另一参数导出的年龄值来确定一个设备参数的劣化。 在另一方面,劣化设备被建模为具有连接到终端的电压源的新设备。