An integrated circuit may include multiple programmable logic regions and a first plurality of routers. Each of the first plurality of routers is coupled to a respective region of a first portion of the programmable logic regions, and each of the first portion of the plurality of regions transmits configuration data to a first set of adjacent regions of the first portion of regions. The integrated circuit may also include a second plurality of routers, and each of the second plurality of routers is coupled to a respective region of a second portion of the regions. Each of the second portion of the regions transmits the configuration data to a second set of adjacent regions of the first portion of regions. The integrated circuit may also include a voltage regulator that distributes a voltage to each of the regions.

An integrated circuit may include multiple programmable logic regions and a first plurality of routers. Each of the first plurality of routers is coupled to a respective region of a first portion of the programmable logic regions, and each of the first portion of the plurality of regions transmits configuration data to a first set of adjacent regions of the first portion of regions. The integrated circuit may also include a second plurality of routers, and each of the second plurality of routers is coupled to a respective region of a second portion of the regions. Each of the second portion of the regions transmits the configuration data to a second set of adjacent regions of the first portion of regions. The integrated circuit may also include a voltage regulator that distributes a voltage to each of the regions.

A field programmable gate array comprising: plurality of functional blocks at least one of the functional blocks comprising at least one function, at least one of the functions using a parameter, wherein the functional blocks are adapted to perform the at least one function in a calculation phase; a data conveyor comprising a plurality of data slots, wherein each functional block is, in a data transfer phase, adapted to receive input data from one or more predefined first slots and/or to provide output data into one or more predefined second slots; and a configuration circuit adapted to configure the parameter for the at least function using the parameter and to define the one or more first slots and/or the one or more second slots for at least one functional block, wherein the field programmable gate array is adapted to cyclically repeat the data transfer phase and calculation phase.

An integrated circuit may include multiple programmable logic regions and a first plurality of routers. Each of the first plurality of routers is coupled to a respective region of a first portion of the programmable logic regions, and each of the first portion of the plurality of regions transmits configuration data to a first set of adjacent regions of the first portion of regions. The integrated circuit may also include a second plurality of routers, and each of the second plurality of routers is coupled to a respective region of a second portion of the regions. Each of the second portion of the regions transmits the configuration data to a second set of adjacent regions of the first portion of regions. The integrated circuit may also include a voltage regulator that distributes a voltage to each of the regions.

Generating a unique die identifier for an electronic chip including placing the electronic chip in an identifier generation state, wherein the electronic chip comprises a set of test circuits, wherein each of the set of test circuits is attached to a corresponding component on the electronic chip; obtaining an ordered list of race pairs of the set of test circuits; for each race pair in the ordered list of race pairs of the set of test circuits: selecting the race pair of test circuits; executing a race between the selected race pair; and adding an element to the unique die identifier based on an outcome of the executed race; and returning the electronic chip to an operational state.

An integrated circuit may include multiple programmable logic regions and a first plurality of routers. Each of the first plurality of routers is coupled to a respective region of a first portion of the programmable logic regions, and each of the first portion of the plurality of regions transmits configuration data to a first set of adjacent regions of the first portion of regions. The integrated circuit may also include a second plurality of routers, and each of the second plurality of routers is coupled to a respective region of a second portion of the regions. Each of the second portion of the regions transmits the configuration data to a second set of adjacent regions of the first portion of regions. The integrated circuit may also include a voltage regulator that distributes a voltage to each of the regions.

A semiconductor device includes a configuration memory that has functions of holding configuration data and generating a signal based on the configuration data, a context generator that has a function of generating a signal for controlling context switch, a clock generator that has a function of operating in a first mode or a second mode in accordance with the signal generated in the configuration memory, and a PLD. A clock signal is input to the context generator and the clock generator. The clock generator outputs the clock signal to the PLD in the first mode and stops outputting the clock signal to the PLD in the second mode.

Provided is a programmable logic device that includes logic elements arranged in a plurality of columns. Wirings connecting logic elements are arranged between the plurality of columns. Switch circuits that control electrical connections between the wirings and the logic elements are also arranged between the plurality of columns. Each of the switch circuit selects an electrical connection between one of the wirings and an input terminal of one of the logic elements in accordance with configuration data.

The present invention relates to a look-up table architecture and to an FPGA comprising the same. The look-up table architecture comprises a registers group comprising a plurality of registers configured to issue register signals, and a programmable logic comprising a plurality of pass gates configured to be controlled at least by the register signals, the registers group and the programmable logic forming a look-up table, wherein the pass gates are placed in a single direction.

A circuit for implementing a scan chain in programmable resources of an integrated circuit is described. The circuit comprises a programmable element configured to receive an input signal and generate an output signal based upon the input signal; a selection circuit configured to receive the output signal generated by the programmable element at a first input and to receive a scan chain input signal at a second input, wherein the selection circuit generates a selected output signal in response to a selection circuit control signal; and a register configured to receive the selected output signal of the selection circuit.