Abstract: An I/O bus interface cell includes a driver circuit having an input terminal fed by a logic signal and an output terminal to produce in response thereto a drive signal having selectable rise and fall time characteristics in accordance with a reference voltage provided to the driver. The I/O cell also includes a receiver circuit having an input terminal coupled to said output terminal of said driver with the receiver disposed to latch an unresolved, unamplified received signal prior to resolving the state of the signal. The I/O cell further includes a termination circuit having a terminal connected to the output of said driver, and having a selectable impedance characteristic at said terminal, with said selectable impedance being in accordance with a reference voltage provided to an input of said termination circuit. Preferably, the I/O cell the driver, receiver and termination circuits are fabricated on a common semiconductor substrate.

Abstract: A high-power-factor power supply has a full-wave rectifier for rectifying an AC line voltage, a power regulator including switch means responsive to a control signal for controlling the application of the rectifier output to a load; and a control circuit for producing a switching control signal. The control signal includes a pair of AC line detectors: a first connected in a closed-loop automatic gain control arrangement, and the other connected in an open-loop arrangement. The control circuit initially produces a CURRENT DEMAND REFERENCE signal that is directly related to the difference between the power supply DC output voltage and a self-generated constant reference, and to the waveform shape of the AC line voltage, and is inversely related to magnitude changes of the AC line voltage. The control signal then produces the switching control signal in response to both the CURRENT DEMAND REFERENCE signal and the current flowing in the power supply.

Abstract: A MOSFET device is constructed with an integrated Schottky diode clamp connected between the source or drain terminal and the bulk terminal. In an illustrative implementation, one or more MOSFETs are formed in an n-well located in a p-type silicon substrate. Each drain is formed by a p+ region underlying a portion of a metal-silicide layer. In one embodiment, the p+ region underlies an edge of the metal-silicide; in another embodiment, the p+ region underlies opposing edges of the metal-silicide, such that a portion of the metal-silicide contacts the n-well. Each source is formed by a p+ region underlying a layer of metal-silicide. Each gate includes a layer of p+ or n+ polycrystalline silicon clad with a layer of metal-silicide, the gates being separated from the n-well by a layer of oxide. In comparison to p-n junction diodes, the integrated Schottky diodes more effectively limit excess voltages applied to MOSFETs.

Abstract: Read-write buffer apparatus is provided for reducing the time necessary to resolve read conflicts during normal and block mode read requests. Additionally, the read-write buffer apparatus provides a means for gathering non-sequential write requests in an internal write buffer, thus reducing the frequency of a buffer full condition. The enhanced read-write buffer apparatus minimizes CPU wait states, while increasing the CPU processing rate and improves overall data processing system throughput.

Abstract: A new method for planarization of shallow trenches is presented. Shallow trenches are patterned into a semiconductor substrate that has been coated with a layer of silicon nitride. A conformal coating of oxide is deposited onto the wafer to fill the trenches. A thin layer of etch-stop silicon and a second layer of oxide are then deposited. The second layer of oxide is patterned with a filler mask using conventional photolithographic techniques and etched to the silicon etch-stop layer, leaving blocks of oxide in the depressions above the trenches and oxide spacers along the sidewalls. Chemical mechanical polishing is then used to polish the oxide back to the silicon nitride. The process offers excellent global planarity, minimal variation in silicon nitride thickness across active areas of varying size and density, and relative insensitivity to chip design.

Abstract: An array processing system has a plurality of processing elements, each of which includes a processor and an associated memory module, and a router network over which each processing element can transfer messages to other random processing elements. The system further includes a shift register which can shift data either toward a shift-in terminal, or toward a shift-out terminal, either one bit at a time or four bits at a time, thus improving processing system speed for floating point arithmetic operations.

Abstract: An integrated circuit chip has both digital and analog circuit functions, with one or more islands for isolating the analog functions from noise caused by the digital functions. An island is defined by a surrounding heavily-doped region in the face of the chip. The voltage supplies for an analog island are isolated from the digital supply voltage for high frequencies by using resistive decoupling in series along with capacitive coupling to ground. Similarly, series resistive decoupling and capacitive coupling to ground are employed for the analog input signal lines going to the island. Analog signals generated within the island are coupled to the area outside the island on the chip face by either converting to digital in an A-to-D converter, or by a differential arrangement which accounts for differences that may exist between digital and analog supply voltages.

Abstract: A memory management and arbitration technique that reduces system bus contention by eliminating memory bank conflicts employs a restrictive, distributive memory-arbitration scheme, and an improved address decoder for decoding addresses of software reconfigurable memory. In the memory-arbitration scheme, each commander node desiring access to a particular memory bank first determines whether that memory bank is "available" before initiating access to that memory bank, with the determination being made before requesting control of the system bus. A memory bank is "available" if it was not accessed during a predetermined number (e.g., two) of the immediately previously-occurring arbitrations for the system bus. The address decoder includes a mapping register that stores information concerning the addresses assigned to, and the structure of, the memory module. The address decoder also has an address/range decoder section, an interleaved decoder section, and a bank decoder section.

Abstract: An X window display server provides a virtual window manager client that, from the viewpoint of client programs connected to the server, is indistinguishable from a real window manager client. The emulated window manager is implemented as an internal server client.

Abstract: An apparatus which allows for software sharing between multiple controllers includes a computer bus and a plurality of processors each having input and output ports coupled to the bus. Each processor also has at least one internal storage register. The apparatus further includes means, which are responsive to a signal indicating which one of the plurality of processors is controlling the computer bus and to a portion of address data on the bus, for issuing a control signal to one of the plurality of processors to permit that one processor access to at least one of its internal storage register when that processor issues a bus access request having an address which is within the range of addresses of all the processors.

Abstract: The present invention is directed to a control flow logic device for handling data received from a bus by a bus interface, in response to a bus read transaction, and transferred to a processor. The control flow logic includes an error checker to check data received from the bus for hard errors and parity errors and an ECC generator to generate an ECC for the received data, the ECC being forced to a bad ECC when a hard error is detected by the error checker and to a good ECC in the absence of a hard error. An error signal generator is utilized to generate and transmit an error signal to the processor when there is a hard error or a parity error in the received data and a data mover transmits the received data and the ECC to the processor.

Abstract: A method and device for receiving data in a synchronous communication system. Data can be accurately transferred between two subsystems in a synchronous system even where the clock skew and propagation delay between the two subsystems is unlimited. The receiving subsystem is initialized to ensure synchronous data transfer over a theoretically infinite range. The transmitting subsystem transmits data and a forwarded clock to the receiving subsystem. Data is captured in three state devices arranged in parallel to eliminate minimum delay requirements and to expand data valid time. The captured data is then aligned to the clock of the receiving subsystem by controlling a multiplexer which selects the proper state device output to pass to another state device for alignment to the receiving subsystem's clock. The multiplexer is controlled by a circuit which monitors the capturing of the incoming data and determines the correct state device output to select for proper data alignment.