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    • 2. 发明申请
    • RISC PROCESSOR AND ITS REGISTER FLAG BIT PROCESSING METHOD
    • RISC处理器及其寄存器标记处理方法
    • US20100268916A1
    • 2010-10-21
    • US12747018
    • 2008-11-24
    • Weiwu HuXiaoyu LiGuojie Li
    • Weiwu HuXiaoyu LiGuojie Li
    • G06F15/76G06F9/30
    • G06F9/30094G06F9/30076G06F9/30174G06F9/30189
    • The present invention discloses a RISC processor and a method of processing flag bits of a register in the RISC processor. Said RISC processor comprises a physical register stack, an operating component connected to the physical register stack and an decoder connected to the operating component; the physical register stack comprises an emulation flag register for emulating to realize flag bits of a flag register in a CISC processor; the operating component comprises a flag read-write module for reading and writing the values of the flag bits of the emulation flag register. The operating component further comprises an operating controller for performing an operation control according to the values of the flag bits of the emulation flag register when the RISC processor is in the working mode of X86 virtual machine during an operation process.
    • 本发明公开了RISC处理器和处理RISC处理器中寄存器的标志位的方法。 所述RISC处理器包括物理寄存器堆栈,连接到物理寄存器堆栈的操作组件和连接到操作组件的解码器; 物理寄存器堆栈包括用于仿真以实现CISC处理器中的标志寄存器的标志位的仿真标志寄存器; 操作部件包括用于读取和写入仿真标志寄存器的标志位的值的标志读写模块。 操作部件还包括操作控制器,用于当RISC处理器在操作过程中处于X86虚拟机的工作模式时,根据仿真标志寄存器的标志位的值进行操作控制。
    • 3. 发明授权
    • RISC processor apparatus and method for supporting X86 virtual machine
    • 用于支持X86虚拟机的RISC处理器装置和方法
    • US08949580B2
    • 2015-02-03
    • US12922949
    • 2008-12-17
    • Guojie LiWeiwu HuXiaoyu LiMenghao Su
    • Guojie LiWeiwu HuXiaoyu LiMenghao Su
    • G06F9/30
    • G06F9/30174G06F9/30076G06F9/30094G06F9/30185
    • A RISC processor apparatus and method for supporting an X86 virtual machine. The RISC processor includes: an instruction module for storing a virtual machine instruction set that supports the X86 virtual machine; a decoder for, during the decoding of an instruction of the virtual machine instruction set, distinguishing the virtual machine instruction set mode of the instruction, decoding the instruction according to the distinguished virtual machine instruction set mode, and outputting the decoded instruction to a fixed-point operation component or a floating-point operation component according to the distinguished virtual machine instruction set mode; the fixed-point operation component for processing the fixed-point instruction of the virtual machine instruction set according to the output of the decoder and outputting the execution result; the floating-point operation component for processing the floating-point instruction of the virtual machine instruction set according to the output of the decoder and outputting the execution result.
    • 一种用于支持X86虚拟机的RISC处理器装置和方法。 RISC处理器包括:用于存储支持X86虚拟机的虚拟机指令集的指令模块; 解码器,用于在虚拟机指令集的指令的解码期间,区分指令的虚拟机指令集模式,根据识别的虚拟机指令集模式对指令进行解码,并将解码指令输出到固定指令, 点操作组件或浮点运算组件; 所述定点操作部件用于根据所述解码器的输出来处理所述虚拟机指令集的定点指令,并输出所述执行结果; 浮点运算部件,用于根据解码器的输出来处理虚拟机指令集的浮点指令,并输出执行结果。
    • 4. 发明申请
    • RISC PROCESSOR DEVICE AND METHOD OF SIMULATING FLOATING-POINT STACK OPERATION THEREOF
    • RISC处理器装置及其模拟浮点运算的方法
    • US20100274991A1
    • 2010-10-28
    • US12746882
    • 2008-12-12
    • Wei DuanXiaoyu Li
    • Wei DuanXiaoyu Li
    • G06F15/76G06F9/02
    • G06F9/30134G06F9/3001G06F9/30101G06F9/30174G06F9/30181
    • An RISC processor device and a method of emulating a floating-point stack operation thereof The processor device comprises: a floating-point register file containing a plurality of floating-point registers; a decoding section for decoding operation instructions of the RISC processor; a floating-point operation section connected to the decoding section; a control register for controlling the status of the floating-point registers and controlling the decoding section and the floating-point operation section to emulate a floating-point register stack using the floating-point register file. The decoding section includes a pointer register for maintaining a stack operation pointer and storing the value of the stack operation pointer; the floating-point operation section includes a pointer operation module for operating the pointer register, emulating the stack operation of the stack pointer of the pointer register, modifying and monitoring the phase of the stack pointer during emulating a floating-point register stack operation.
    • 一种RISC处理器装置和一种仿真浮点堆栈操作的方法。处理器装置包括:一个包含多个浮点寄存器的浮点寄存器文件; 用于解码所述RISC处理器的操作指令的解码部分; 连接到解码部分的浮点运算部分; 控制寄存器,用于控制浮点寄存器的状态,并控制解码部分和浮点运算部分,以使用浮点寄存器堆来模拟浮点寄存器堆栈。 解码部分包括用于保持堆栈操作指针并存储堆栈操作指针的值的指针寄存器; 浮点操作部分包括用于操作指针寄存器的指针操作模块,模拟指针寄存器的堆栈指针的堆栈操作,在仿真浮点寄存器堆栈操作期间修改和监视堆栈指针的相位。
    • 5. 发明申请
    • Synchronized screw driven power telescoping and tilt mechanism for steering column
    • 转向柱同步螺杆驱动力伸缩机构
    • US20060283281A1
    • 2006-12-21
    • US11156409
    • 2005-06-20
    • Xiaoyu LiRichard Riefe
    • Xiaoyu LiRichard Riefe
    • B62D1/16
    • B62D1/181
    • The invention provides a steering column assembly for a vehicle. The steering column assembly includes a lower steering column jacket for attachment to a vehicle. The steering column assembly also includes an upper steering column jacket engaged with the lower steering column jacket for telescoping movement along a longitudinal axis to support a steering wheel in a desired longitudinal position. The steering column assembly also includes a tilt housing engaged with the upper steering column jacket for tilting movement about a tilt axis to support the steering wheel in a desired angular position. The steering column assembly also includes a screw drive operably disposed relative to the lower steering column jacket. The screw drive includes a motor and a screw driven in rotation by the motor. The screw defines a centered, longitudinal screw axis. The steering column assembly also includes a nut assembly selectively engageable with the screw and fixedly engaged with the upper steering column jacket for controlling the telescoping movement.
    • 本发明提供了一种用于车辆的转向柱组件。 转向柱组件包括用于附接到车辆的下转向柱护套。 转向柱组件还包括与下转向柱护套接合的上转向柱护套,用于沿纵向轴线伸缩运动以将方向盘支撑在期望的纵向位置。 转向柱组件还包括与上部转向柱护套接合的倾斜壳体,用于围绕倾斜轴线倾斜运动,以将方向盘支撑在期望的角度位置。 转向柱组件还包括相对于下转向柱护套可操作地设置的螺旋驱动器。 螺杆驱动器包括电动机和由电动机驱动旋转的螺钉。 螺钉限定了居中的纵向螺丝轴。 转向柱组件还包括螺母组件,螺母组件可选择性地与螺钉接合并且与上转向柱护套固定接合以控制伸缩运动。
    • 7. 发明授权
    • Adaptive energy absorbing device for a steering column
    • 用于转向柱的自适应能量吸收装置
    • US06802536B2
    • 2004-10-12
    • US10373402
    • 2003-02-24
    • Xiaoyu LiMarvin V. ManwaringMelvin Lee TinninRavindra JwalapathyRay G. Armstrong
    • Xiaoyu LiMarvin V. ManwaringMelvin Lee TinninRavindra JwalapathyRay G. Armstrong
    • B62D119
    • B62D1/195F16F7/123F16F7/128
    • An energy absorbing device for a collapsible steering column of a vehicle is able to compensate for the severity of a crash and the weight of the driver to better manage the absorption of energy in a crash event. A housing has at least one fixed abutment surface, and at least one adjuster disposed in the housing for selective lateral slidable movement. At least one anvil is disposed adjacent an initial abutment surface of the adjuster in spaced relation to the fixed abutment surface of the housing in a first position of the anvil associated with high energy absorption. A plastically deformable strap is supported between the anvil and the housing. The adjuster slides out of the path of the anvil in a crash event in response to input of a control signal allowing the anvil to slide into contact with the fixed abutment surface of the housing to define a second position of the anvil associated with lower energy absorption.
    • 用于车辆的可折叠转向柱的能量吸收装置能够补偿碰撞的严重性和驾驶员的重量,以更好地管理碰撞事件中的能量吸收。 壳体具有至少一个固定的邻接表面,以及设置在壳体中的至少一个调节器,用于选择性的侧向滑动运动。 在与高能量吸收相关联的砧座的第一位置中,至少一个砧座邻近调节器的初始邻接表面设置成与壳体的固定邻接表面间隔开。 砧座和壳体之间支撑着可塑性变形的带子。 响应于控制信号的输入,调节器在碰撞事件中从砧座的路径滑出,允许砧座滑动到与壳体的固定邻接表面接触以限定与较低能量吸收相关联的砧座的第二位置 。
    • 8. 发明授权
    • Energy-absorbing steering column for motor vehicle
    • 用于汽车的吸能转向柱
    • US5788278A
    • 1998-08-04
    • US808204
    • 1997-02-28
    • Steven Mark ThomasXiaoyu LiRichard Thomas Stuedemann
    • Steven Mark ThomasXiaoyu LiRichard Thomas Stuedemann
    • B62D1/19F16F7/12B62D1/11
    • F16F7/123B62D1/195
    • An energy-absorbing motor vehicle steering column including a housing supported on a body structure of the vehicle for linear translation in a collapse direction and an energy absorber which converts into work a fraction of the kinetic energy of an impact on the steering column. The energy absorber includes a bare flat metal ribbon, i.e., without friction-reducing coating or lubrication, preformed to define a pair of parallel straight sections and a lateral web between the straight sections. The ribbon is seated edge-wise on a horizontal wall of the steering column housing with the straight sections in a pair of longitudinal guide channels and the lateral web looped over a pair of laterally spaced bare anvils on the housing and wedged between the bare anvils and an abutment on the body structure on the other side of the lateral web from the anvils. During linear translation of the housing in the collapse direction, the abutment anchors the center of the web on the vehicle body structure so that each of the straight sections of the flat ribbon is plastically deformed around and pulled across a corresponding one of the anvils to effect energy absorption by plastic deformation and by friction.
    • 一种能量吸收机动车辆转向柱,其包括支撑在车辆的车身结构上的壳体,用于在塌方向上线性平移;以及能量吸收器,其将转向柱上的冲击动能的一部分转换为能量吸收器。 能量吸收器包括裸平的金属带,即,不具有减摩擦涂层或润滑剂,被预先形成以限定一对平行的直线部分和在直的部分之间的横向腹板。 带状物边缘地位于转向柱壳体的水平壁上,其中直线部分在一对纵向引导通道中,并且横向腹板环绕在壳体上的一对横向间隔开的砧座上并且楔入裸露砧座和 在外侧腹板的另一侧上的砧座上的主体结构上的邻接。 在壳体处于塌缩方向的线性平移期间,邻接件将幅材的中心锚定在车身结构上,使得扁平带的每个直线部分在相对应的一个砧座周围塑性变形并且被拉动以实现 通过塑性变形和摩擦吸收能量。
    • 9. 发明授权
    • RISC processor and its register flag bit processing method
    • RISC处理器及其寄存器标志位处理方法
    • US09189232B2
    • 2015-11-17
    • US12747018
    • 2008-11-24
    • Weiwu HuXiaoyu LiGuojie Li
    • Weiwu HuXiaoyu LiGuojie Li
    • G06F9/30
    • G06F9/30094G06F9/30076G06F9/30174G06F9/30189
    • The present invention discloses a RISC processor and a method of processing flag bits of a register in the RISC processor. Said RISC processor comprises a physical register stack, an operating component connected to the physical register stack and an decoder connected to the operating component; the physical register stack comprises an emulation flag register for emulating to realize flag bits of a flag register in a CISC processor; the operating component comprises a flag read-write module for reading and writing the values of the flag bits of the emulation flag register. The operating component further comprises an operating controller for performing an operation control according to the values of the flag bits of the emulation flag register when the RISC processor is in the working mode of X86 virtual machine during an operation process.
    • 本发明公开了RISC处理器和处理RISC处理器中寄存器的标志位的方法。 所述RISC处理器包括物理寄存器堆栈,连接到物理寄存器堆栈的操作组件和连接到操作组件的解码器; 物理寄存器堆栈包括用于仿真以实现CISC处理器中的标志寄存器的标志位的仿真标志寄存器; 操作部件包括用于读取和写入仿真标志寄存器的标志位的值的标志读写模块。 操作部件还包括操作控制器,用于当RISC处理器在操作过程中处于X86虚拟机的工作模式时,根据仿真标志寄存器的标志位的值进行操作控制。
    • 10. 发明授权
    • Technique for simulating floating-point stack operation involving conversion of certain floating-point register numbers based on a top-of-stack pointer and modulo function
    • 用于模拟浮点堆栈操作的技术,包括基于堆栈顶指针和模函数的某些浮点寄存器数字的转换
    • US08788796B2
    • 2014-07-22
    • US12746882
    • 2008-12-12
    • Wei DuanXiaoyu Li
    • Wei DuanXiaoyu Li
    • G06F9/318G06F9/30G06F9/302
    • G06F9/30134G06F9/3001G06F9/30101G06F9/30174G06F9/30181
    • A Reduced Instruction Set Computing (RISC) processor is capable of emulating operation of a floating-point register stack. The RISC processor may include a floating-point register file containing a plurality of floating-point registers, a decoding section for decoding operation instructions, and a floating-point operation section. The RISC processor may also include a control register for controlling status of floating-point registers, and for controlling the decoding section and the floating-point operation section, to thereby emulate a floating-point register stack using the floating-point register file. The decoding section may include a pointer register for maintaining a stack operation pointer, and for storing a value of the stack operation pointer. The floating-point operation section may also include a pointer operation module for operating the pointer register, for emulating stack operation of the stack pointer of the pointer register, and for modifying and monitoring the stack pointer during emulation of floating-point register stack.
    • 精简指令集计算(RISC)处理器能够仿真浮点寄存器堆栈的操作。 RISC处理器可以包括包含多个浮点寄存器的浮点寄存器文件,用于解码操作指令的解码部分和浮点运算部分。 RISC处理器还可以包括用于控制浮点寄存器的状态的控制寄存器,并且用于控制解码部分和浮点运算部分,从而使用浮点寄存器堆来模拟浮点寄存器堆栈。 解码部分可以包括用于维护堆栈操作指针的指针寄存器,并且用于存储堆栈操作指针的值。 浮点操作部分还可以包括用于操作指针寄存器的指针操作模块,用于模拟指针寄存器的堆栈指针的堆栈操作,以及用于在仿真浮点寄存器堆栈期间修改和监视堆栈指针。