公开(公告)号：WO2010034104A1

公开(公告)日：2010-04-01

申请号：PCT/CA2009/001204

申请日：2009-09-03

Applicant: VISUAL DEFENCE, INC. ,  GODFREY, Michael ,  KNIGHT, Christopher

Inventor： GODFREY, Michael ,  KNIGHT, Christopher

IPC: H05K5/00 ,  G06F1/16 ,  G11C99/00 ,  H04N5/907 ,  G07C5/08

CPC classification number: H04N5/76 ,  H04N5/765

Abstract: A video recording device adapted to be resistive to thermal and mechanical shocks experienced in a catastrophic event, the device including a plurality of interchangeable components, the device comprising: a housing; a video component releasably mounted in the housing and having a lens for capturing images from an external environment of the device and a digital processor for producing digital data from the captured images; a memory component releasably mounted in the housing and releasably coupled to the video component adapted for storing the digital data received from the video component, the memory component including a non-volatile memory unit and an enclosure adapted for inhibiting the transfer of thermal and mechanical shocks from the external environment to the non-volatile memory unit, the non-volatile memory unit enclosed in the enclosure; and an interface component releasably mounted in the housing and releasably coupled to the video component and the memory component, the interface component adapted for providing power and data communication from the external environment to the video component and the memory component.

Abstract translation: 一种视频记录装置，适于抵抗在灾难性事件中遇到的热和机械冲击，该装置包括多个可互换部件，该装置包括：壳体; 可释放地安装在壳体中并具有用于从设备的外部环境捕获图像的透镜和用于从所捕获的图像产生数字数据的数字处理器的视频部件; 可释放地安装在壳体中并且可释放地耦合到视频组件的存储器组件，适用于存储从视频组件接收的数字数据，存储器组件包括非易失性存储器单元和适于禁止热和机械冲击传输的外壳 从外部环境到非易失性存储器单元，包围在外壳中的非易失性存储器单元; 以及可释放地安装在所述壳体中并且可释放地耦合到所述视频组件和所述存储器组件的接口组件，所述接口组件适于提供从所述外部环境到所述视频组件和所述存储器组件的电力和数据通信。

公开(公告)号：WO2016200718A1

公开(公告)日：2016-12-15

申请号：PCT/US2016/035963

申请日：2016-06-06

Applicant: THE BOARD OF TRUSTEES OF THE LELAND STANFORD JUNIOR UNIVERSITY

Inventor： MITRA, Subhasish ,  CAMPBELL, Keith ,  LIN, David ,  CHEN, Deming

IPC: G01R31/28 ,  G11C29/56 ,  G11C99/00 ,  G06F11/22

CPC classification number: G06F17/5022 ,  G06F11/00 ,  G06F11/07 ,  G06F11/27 ,  G06F11/3648 ,  G11C29/56 ,  G11C99/00 ,  G11C2029/0411

Abstract: Disclosed are improved methods and structures for verifying integrated circuits and in particular systems-on-a-chip constructed therefrom. Our methods - which we call Quick Error Detection - Hardware (QED-H) - advantageously quickly detect and fix anomalies (bugs) within SoC hardware components - and in particular customized SoC hardware components that are not necessarily software programmable. Of further advantage, methods according to the present disclosure are compatible with existing Quick Error Detection (QED) techniques while being extensible to target software-programmable components as well. In sharp contrast to prior art methods, method(s) according to the present disclosure represent a new system validation methodology that builds validation checks in both software and hardware components seamlessly and systematically, thus enabling extremely quick error detection and localization for all digital components of the entire SoC advantageously producing productivity and time-to-market gains.

Abstract translation: 公开了用于验证集成电路，特别是由其构成的片上系统的改进的方法和结构。 我们称之为快速错误检测 - 硬件（QED-H）的方法有利于快速检测和修复SoC硬件组件中的异常（bug），特别是不一定是软件可编程的定制SoC硬件组件。 更进一步的优点是，根据本公开的方法与现有的快速错误检测（QED）技术兼容，同时可扩展以对软件可编程组件进行目标。 与现有技术方法形成鲜明对比的是，根据本公开的方法代表了一种新的系统验证方法，其无缝地和系统地在软件和硬件组件中建立验证检查，从而使得能够对所有数字组件进行极快速的错误检测和定位 整个SoC有利于生产率和上市时间的增长。