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    • 4. 发明公开
    • SYSTEM, METHOD AND APPARATUS FOR ERROR CORRECTION IN MULTI-PROCESSOR SYSTEMS
    • 系统,VERFAHREN UND VORRICHTUNG ZUR FEHLERKORREKTUR在MEHRPROZESSORSYSTEMEN
    • EP2633408A4
    • 2017-06-14
    • EP11837198
    • 2011-10-28
    • MAXWELL LAB
    • HILLMAN ROBERTWILLIAMSON GALE
    • G06F11/07G06F11/16G06F11/18
    • G06F11/073G06F11/0724G06F11/0763G06F11/1658G06F11/184G06F2201/83
    • This disclosure provides apparatus, methods and systems for error correction in multi processor systems. Some implementations include a plurality of computing modules, each computing module including a processor. Each processor may include processing state. In some other implementations, each computing module may also include a memory. Upon receiving a signal to perform a partial re-synchronization, a hash of each processor's state data may be performed. In some embodiments, a hash of at least a portion of each computing module's memory data may also be performed. The hashes for each processor are then compared to determine majority hashes and possible minority hashes. Upon identifying a minority hash, the computing module that produced the minority hash may receive new processing state data from one of the computing modules that produced a majority hash.
    • 本公开提供了用于多处理器系统中的纠错的设备,方法和系统。 一些实现包括多个计算模块,每个计算模块包括处理器。 每个处理器可能包含处理状态。 在一些其他实现中,每个计算模块还可以包括存储器。 在接收到执行部分重新同步的信号时,可以执行每个处理器的状态数据的散列。 在一些实施例中,还可以执行每个计算模块的存储器数据的至少一部分的散列。 然后比较每个处理器的哈希值,以确定大部分哈希值和可能的少数哈希值。 在识别少数散列时,产生少数散列的计算模块可以从产生多数散列的计算模块之一接收新的处理状态数据。
    • 6. 发明公开
    • METHOD FOR USING PULSED OPTICAL ENERGY TO INCREASE THE BONDABILITY OF A SURFACE.
    • 方法对于脉冲光功率的操作以增加表面粘附。
    • EP0642421A4
    • 1996-03-13
    • EP93913982
    • 1993-05-18
    • MAXWELL LAB INC
    • HAMM RICHARD ROYCATES MICHAEL CHRISTOPHER
    • B05D3/04B05D3/06B08B7/00B29C35/08B29C59/00B29C59/16C08J7/00C09J5/02B32B31/00B08B7/02
    • B05D3/06B05D3/044B05D3/0446B08B7/0035B29C59/00B29C59/16B29C2035/0827B32B38/0008C09J5/02
    • A method and system for improving the capability of a surface (14) of an organic structure (16) to bond with another material includes irradiating a target area of the surface of a structure with pulsed, incoherent optical energy (18) from an optical energy source (12) having wavelength components which range from 170-5000 nanometers at an intensity sufficient to photodecompose any adventitious organic substances on the surface and to photodecompose a thin layer of molecular bonds forming the surface of the structure; and exposing the target area of the surface (14) to an ionized gas stream (24) from an ionized gas generator (26) that chemically reacts with the target area of the surface to increase the surface free energy of the surface. A similar method may also be employed to improve the bondability of a metal surface by impinging a target area on a metal surface with a stream of particles (36) to preclean and dislodge any inorganic substances from the surface; and then irradiating the target area of the surface with pulsed, incoherent optical energy (18) having wavelength components in the range of 170-5000 nanometers at an intensity sufficient to photodecompose any remaining organic substances present on the surface.
    • 一种提高的有机结构(16)的一个表面(14)与另一种材料结合的能力的方法和系统包括:从在光能量照射脉冲,非相干光的能量(18)的结构的表面的目标区域 源(12),其具有波长分量从170至5000纳米米范围处强度足够的光分解到表面上的任何外来的有机物质和光分解的形成结构的表面的分子键的薄层; 并与该表面的目标区域,以增加该表面的表面自由能的表面(14)的目标区域暴露于从其在电离气体发生器(26)电离气体流(24)并进行化学反应。 因此可以采用类似的方法通过用颗粒(36)的流预清洁和逐出表面的任何无机物在金属表面上撞击的目标区域,以改善金属表面的粘结能力; 然后照射脉冲,非相干光能量具有在强度足够的光分解,以在表面上存在的任何残留的有机物质在170至5000纳米米的范围内的波长成分的表面的目标区域(18)。
    • 7. 发明公开
    • DEACTIVATION OF MICROORGANISMS BY AN OSCILLATING MAGNETIC FIELD.
    • DESAKTIVIERUNG VON MIKROORGANISMEN MITTELS EINES OSZILLIERENDEN MAGNETFELDES。
    • EP0163693A4
    • 1985-10-17
    • EP84904267
    • 1984-11-05
    • MAXWELL LAB INC
    • HOFMANN GUNTER A
    • A23L3/26A23L3/01A23L3/32A61L2/02A61L2/08C02F1/48C12N13/00A23L3/00
    • C02F1/48A23L3/01A23L3/32A61L2/02C02F2303/04
    • Method of sterilizing food by killing or deactivating microorganisms without altering the taste or other properties of the food. Food in or out of containers having high electrical resistivity are disposed within an electro-magnetic coil (10) and subjected to one or more pulses of an oscillating magnetic field having an intensity of between about 2 and about 100 Tesla and a frequency of between about 5 and about 500 kHz. The magnetic field in the coil (10) is produced upon discharge of a capacitor (14). The capacitor is charged from a source (16) and when a switch (18) is closed, completing the circuit that includes the capacitor and the coil, an oscillating current is generated between the plates of the capacitor (14) which in turn generates an oscillating magnetic field which is concentrated within the region (20) bounded by the coil (10). The method can also be used to sterilize plastic materials including containers.
    • 在不改变食物的味道或其他性质的情况下通过杀死或灭活微生物来杀菌食物的方法。 进入或离开具有高电阻率的容器的食物被置于电磁线圈(10)内并经受一个或多个振荡磁场的脉冲,振荡磁场的强度在约2和约100特斯拉之间,频率在约 5和约500kHz。 线圈(10)中的磁场是在电容器(14)放电时产生的。 电容器从电源(16)充电,并且当开关(18)闭合时,完成包括电容器和线圈的电路,在电容器(14)的极板之间产生振荡电流, 振荡磁场集中在由线圈(10)所界定的区域(20)内。 该方法还可用于对包括容器的塑料材料进行消毒。