A scalable circuit architecture for programmable circuitry is provided. Intellectual property (IP) blocks may be integrated into a circuit design and may be formed next to programmable logic sectors on which user logic functions are implemented. IP blocks may receive configuration data from sub-system managers (SSMs) that serve as a local configuration source for the IP blocks. Configurable endpoints in the IP blocks may be represented by memory mapped addresses that may be decoded by pipeline decoders having delay elements that prevent read data collision. A reroute layer may serve as an interface between IP blocks and one or more programmable logic sectors. The reroute layer may have a higher number of connections at a logic sector interface compared to the number of connections at an IP block interface. An IP block may route clock signals having different frequencies to respective different rows or regions in the programmable logic sectors.

Systems and methods for adding a logic layer between FPGA I/O and the core logic of the FPGA. With the extra layer, users can monitor and/or modify the I/O to the FPGA. In addition, users can monitor and/or modify input/output to the core logics of the FPGA, thereby filtering both I/O to the FPGA and the logic blocks of the FPGA. With the filtering in place, a non-intrusive digital scope can be implemented which can, in turn, be used to create a “black box” regarding FPGA I/O during the occurrence of the catastrophic events within the system.

A circuit with a plurality of analog circuit blocks, each configured to provide at least one analog function and a programmable interconnect coupled of the analog circuit blocks and configurable to interconnect combinations of the analog circuit blocks to one another. The circuit is formed in an integrated circuit (chip) and the programmable interconnect comprises a plurality of switches coupled between the analog circuit blocks and ports that provide signal connections for the chip.

A circuit with a plurality of analog circuit blocks, each configured to provide at least one analog function and a programmable interconnect coupled of the analog circuit blocks and configurable to interconnect combinations of the analog circuit blocks to one another. The circuit is formed in an integrated circuit (chip) and the programmable interconnect comprises a plurality of switches coupled between the analog circuit blocks and ports that provide signal connections for the chip.

Various techniques are provided to efficiently implement user designs in programmable logic devices (PLDs). In one example, a computer-implemented method includes receiving a design identifying operations to be performed by a PLD and synthesizing the design into a plurality of PLD components. The synthesizing includes detecting a constant multiplier operation in the design, determining a nearest boundary condition for the constant multiplier operation, and decomposing the constant multiplier operation using the nearest boundary condition to reduce the plurality of PLD components. The reduced plurality of PLD components comprise at least one look up table (LUT) configured to implement an addition or subtraction operation of the decomposed constant multiplier operation.

An expandable logic scheme based on a chip package, includes: an interconnection substrate comprising a set of data buses for use in an expandable interconnection scheme, wherein the set of data buses is divided into a plurality of data bus subsets; and a first field-programmable-gate-array (FPGA) integrated-circuit (IC) chip comprising a plurality of first I/O ports coupling to the set of data buses and at least one first I/O-port selection pad configured to select a first port from the plurality of first I/O ports in a first clock cycle to pass a first data between a first data bus subset of the plurality of data bus subsets and the first field-programmable-gate-array (FPGA) integrated-circuit (IC) chip.

A 3D field programmable gate array (FPGA) system, and method of manufacture therefor, includes: a field programmable gate array (FPGA) die having a configurable power on reset (POR) unit; a heterogeneous integrated circuit die coupled to the FPGA die; and a 3D power on reset (POR) output configured by the configurable POR unit for initializing the FPGA die and the heterogeneous integrated circuit die.

Provided is a memory macro which allows detection of a fault in a fetch circuit for an address signal which is input. The memory micro includes an address input terminal, a clock input terminal, a memory array and a control unit. The control unit includes a temporary memory circuit which fetches an input address signal which is input into the address input terminal in synchronization with an input clock signal which is input from the clock input terminal and outputs the input address signal as an internal address signal. The memory macro further includes an internal address output terminal which outputs the internal address signal for comparison with the input address signal.

A high-speed memory circuit architecture for arrays of resistive change elements is disclosed. An array of resistive change elements is organized into rows and columns, with each column serviced by a word line and each row serviced by two bit lines. Each row of resistive change elements includes a pair of reference elements and a sense amplifier. The reference elements are resistive components with electrical resistance values between the resistance corresponding to a SET condition and the resistance corresponding to a RESET condition within the resistive change elements being used in the array. A high speed READ operation is performed by discharging one of a row's bit lines through a resistive change element selected by a word line and simultaneously discharging the other of the row's bit lines through of the reference elements and comparing the rate of discharge on the two lines using the row's sense amplifier. Storage state data are transmitted to an output data bus as high speed synchronized data pulses. High speed data is received from an external synchronized data bus and stored by a PROGRAM operation within resistive change elements in a memory array configuration.

Methods and systems for performing a surface code error detection cycle. In one aspect, a method includes initializing and applying Hadamard gates to multiple measurement qubits; performing entangling operations on a first set of paired qubits, wherein each pair comprises a measurement qubit coupled to a neighboring data qubit in a first direction; performing entangling operations on a second set of paired qubits, wherein each pair comprises a measurement qubit coupled to a neighboring data qubit in a second or third direction, the second and third direction being perpendicular to the first direction, the second direction being opposite to the third direction; performing entangling operations on a third set of paired qubits, wherein each pair comprises a measurement qubit coupled to a neighboring data qubit in a fourth direction, the fourth direction being opposite to the first direction; applying Hadamard gates to the measurement qubits; and measuring the measurement qubits.