A memory performs a sequence of ECS operations to read a codeword, detect and correct any errors, and write the corrected codeword back to the memory array. An ECS circuit counts errors which are detected, and sets a value of one or more ECS registers in a mode register if the count exceeds a threshold filter at the end of the ECS cycle. The memory also includes a forced ECS readout circuit, which responsive to a command, for example from a controller, sets the value(s) in the ECS register(s).

Multidrop optical connections are used for an optical memory module. Multiple buffer integrated circuits on a module each receive information from the host system using different wavelengths of light transmitted on the same waveguide. Multiple buffer integrated circuits each transmit information back to the CPU using different wavelengths of light transmitted on another waveguide. Wavelength resonant ring couplers disposed on the buffer integrated circuits are used to separate the wavelength being received by a particular buffer integrated circuit from the wavelengths of light destined for other buffer integrated circuits on the same waveguide. Wavelength resonant ring modulators also disposed on the buffer integrated circuits modulate specific wavelengths of light unique to each buffer integrated circuit to transmit information to the CPU.

Methods and apparatus for piecewise addition into an accumulation register using one or more carry runway registers, where the accumulation register includes a first plurality of qubits with each qubit representing a respective bit of a first binary number and where each carry runway register includes multiple qubits representing a respective binary number. In one aspect, a method includes inserting the one or more carry runway registers into the accumulation register at respective predetermined qubit positions, respectively, of the accumulation register; initializing each qubit of each carry runway register in a plus state; applying one or more subtraction operations to the accumulation register, where each subtraction operation subtracts a state of a respective carry runway register from a corresponding portion of the accumulation register; and adding one or more input binary numbers into the accumulation register using piecewise addition.

Methods and apparatus for piecewise addition into an accumulation register using one or more carry runway registers, where the accumulation register includes a first plurality of qubits with each qubit representing a respective bit of a first binary number and where each carry runway register includes multiple qubits representing a respective binary number. In one aspect, a method includes inserting the one or more carry runway registers into the accumulation register at respective predetermined qubit positions, respectively, of the accumulation register; initializing each qubit of each carry runway register in a plus state; applying one or more subtraction operations to the accumulation register, where each subtraction operation subtracts a state of a respective carry runway register from a corresponding portion of the accumulation register; and adding one or more input binary numbers into the accumulation register using piecewise addition.

In some embodiments, clock input buffer circuitry and divider circuitry use a combination of externally-suppled voltages and internally-generated voltages to provide the various clock signals used by a semiconductor device. For example, a clock input buffer is configured to provide second complementary clock signals responsive to received first complementary clock signals using cross-coupled buffer circuitry coupled to a supply voltage and to drive the first complementary clock signals using driver circuitry coupled to an internal voltage. In another example, a divider circuitry may provide divided clock signals based on the second complementary clock signals via a divider coupled to the internal voltage and to drive the divided clock signals using driver circuitry coupled to the supply voltage. A magnitude of the supply voltage may be less than a magnitude of the internal voltage.

A compilation method includes the following: receiving a signal to be compiled and a resistance matching signal; performing compilation processing on the signal to be compiled to obtain a compilation result signal; and in the case where the signal to be compiled is a reserved code, performing compatibility selection processing on the compilation result signal according to the resistance matching signal to determine a first compiled value.

A memory performs a sequence of ECS operations to read a codeword, detect and correct any errors, and write the corrected codeword back to the memory array. An ECS circuit counts errors which are detected, and sets a value of one or more ECS registers in a mode register if the count exceeds a threshold filter at the end of the ECS cycle. The memory also includes a forced ECS readout circuit, which responsive to a command, for example from a controller, sets the value(s) in the ECS register(s).

A memory controller includes a command queue having an input for receiving memory access commands for a memory channel, and a number of entries for holding a predetermined number of memory access commands, and an arbiter that selects memory commands from the command queue for dispatch to one of a persistent memory and a DRAM memory coupled to the memory channel. The arbiter includes a first-tier sub-arbiter circuit coupled to the command queue for selecting candidate commands from among DRAM commands and persistent memory commands, and a second-tier sub-arbiter circuit coupled to the first-tier sub-arbiter circuit for receiving the candidate commands and selecting at least one command from among the candidate commands.

Methods, systems and apparatus for performing windowed quantum arithmetic. In one aspect, a method for performing a product addition operation includes: determining multiple entries of a lookup table, comprising, for each index in a first set of indices, multiplying the index value by a scalar for the product addition operation; for each index in a second set of indices, determining multiple address values, comprising extracting source register values corresponding to indices between i) the index in the second set of indices, and ii) the index in the second set of indices plus the predetermined window size; and adjusting values of a target quantum register based on the determined multiple entries of the lookup table and the determined multiple address values.

Methods, systems and apparatus for performing windowed quantum arithmetic. In one aspect, a method for performing a product addition operation includes: determining multiple entries of a lookup table, comprising, for each index in a first set of indices, multiplying the index value by a scalar for the product addition operation; for each index in a second set of indices, determining multiple address values, comprising extracting source register values corresponding to indices between i) the index in the second set of indices, and ii) the index in the second set of indices plus the predetermined window size; and adjusting values of a target quantum register based on the determined multiple entries of the lookup table and the determined multiple address values.