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    • 2. 发明申请
    • MISALIGNMENT TOLERANT FREE SPACE OPTICAL TRANSCEIVER
    • 缺陷免费空间光收发器
    • WO2008156765A1
    • 2008-12-24
    • PCT/US2008/007553
    • 2008-06-16
    • HEWLETT-PACKARD DEVELOPMENT COMPANY, L. P.TAN, MichaelFATTAL, DavidMORRIS, Terrel
    • TAN, MichaelFATTAL, DavidMORRIS, Terrel
    • G02B6/42
    • H04B10/803
    • In accordance with an aspect of the invention, a system has a transmitter and a receiver, where the transmitter includes a beam source (210) and an optical element (220). The beam source (210) produces a beam (212) that respresents information , and the optical element (220) alters the beam (212) so that the beam (222) has a uniform intensity over a cross-sectional area. The receiver is separated from the transmiiter by free space through which the beam (222) propagates and includes as active area positioned to receive a portion of the beam (222) that the receiver converts into a received signal. To accommodate possible misalignment, the cross-sectional area of the beam (222) is larger than the active area by an amount that accommodates a range of misalignment of the receiver with the transmitter.
    • 根据本发明的一个方面,系统具有发射器和接收器,其中发射器包括光束源(210)和光学元件(220)。 光束源(210)产生重现信息的光束(212),并且光学元件(220)改变光束(212),使得光束(222)在横截面积上具有均匀的强度。 接收机通过自由空间与发射机分开,波束(222)通过自由空间传播,并且包括作为接收波束(222)的一部分的有源区域,接收机转换成接收信号。 为了适应可能的未对准,光束(222)的横截面面积大于有效区域,其量适应接收器与发射器的未对准范围。
    • 6. 发明申请
    • OPTICAL MEMORY EXPANSION
    • 光学存储器扩展
    • WO2010126463A1
    • 2010-11-04
    • PCT/US2009/002602
    • 2009-04-29
    • HEWLETT-PACKARD DEVELOPMENT COMPANY, L.P.MORRIS, TerrelTAN, Michael, Renne Ty
    • MORRIS, TerrelTAN, Michael, Renne Ty
    • G06F13/14G06F13/12G06F1/00
    • G06F13/409
    • Various embodiments of the present invention are directed to optical-based methods and expansion memory systems for disaggregating memory of computer systems. In one aspect, an expansion memory system (200) comprises a first optical/electronic interface (202) in electrical communication with a processor, a memory expansion board (204) configured with memory, and a second optical/electronic interface (208) attached to the memory expansion board. The first interface converts optical signals into electronic signals that are sent to the processor and converts electronic signals produced by the processor into optical signals. The second interface converts optical signals into electronic signals that are sent to the memory and converts electronic signals produced by the memory into optical signals. The optical signals are exchanged between the first and second interfaces. Embodiments also include methods for sending and receiving data in an expansion memory system.
    • 本发明的各种实施例涉及用于分解计算机系统的存储器的基于光学的方法和扩展存储器系统。 一方面,一种扩展存储器系统(200)包括与处理器电通信的第一光/电接口(202),配置有存储器的存储器扩展板(204)和附接的第二光/电接口(208) 到内存扩展板。 第一个接口将光信号转换成发送到处理器的电子信号,并将由处理器产生的电子信号转换为光信号。 第二接口将光信号转换成电子信号,将其发送到存储器并将由存储器产生的电子信号转换为光信号。 光信号在第一和第二接口之间交换。 实施例还包括在扩展存储器系统中发送和接收数据的方法。
    • 7. 发明申请
    • CYLINDRICAL RESONATORS FOR OPTICAL SIGNAL ROUTING
    • 用于光信号路由的圆柱谐振器
    • WO2009151438A1
    • 2009-12-17
    • PCT/US2008/066258
    • 2008-06-09
    • HEWLETT-PACKARD DEVELOPMENT COMPANY, L.P.BRATKOVSKI, Alexandre M.MORRIS, Terrel
    • BRATKOVSKI, Alexandre M.MORRIS, Terrel
    • H01S3/08
    • G02B6/12007G02B6/29341G02F1/095G02F1/295G02F2001/311
    • A system (100) for routing optical signals (235) includes a waveguide array (102, 202) and a cylindrical resonator (115) lying across the waveguide array (102, 202), the cylindrical resonator (115) having independently controllable tangential interfaces with each of the waveguides within the waveguide array (102, 202). A method of selectively routing an optical signal (430) between waveguides (415, 425) includes selecting a optical signal (430) to route; determining the desired path the optical signal (430); tuning a first controllable interface between a cylindrical resonator (301) and a source waveguide (415) to extract the optical signal (430) from the source waveguide (415); and tuning a second independently controllable interface between the cylindrical resonator (301) and a destination waveguide (425) to deposit the optical signal into the destination waveguide (425).
    • 用于路由光信号(235)的系统(100)包括横跨波导阵列(102,202)的波导阵列(102,202)和圆柱形谐振器(115),所述圆柱形谐振器(115)具有独立可控的切向界面 波导阵列(102,202)中的每个波导。 在波导(415,425)之间选择性地路由光信号(430)的方法包括选择光信号(430)进行路由; 确定光信号(430)的期望路径; 调整圆柱形谐振器(301)和源极波导(415)之间的第一可控接口以从源极波导(415)提取光学信号(430)。 以及调谐所述圆柱形谐振器(301)和目的波导(425)之间的第二独立可控接口以将所述光信号沉积到所述目的波导(425)中。