CN115543013A

CN115543013A - Photon chip for accelerating photon calculation and signal processing

Info

Publication number: CN115543013A
Application number: CN202211198078.XA
Authority: CN
Inventors: 刘国栋
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-09-29
Filing date: 2022-09-29
Publication date: 2022-12-30
Also published as: WO2024067772A1

Abstract

The invention discloses a photon processor chip for photon calculation acceleration and signal processing acceleration, which comprises: electromagnetic waves as carriers for information transmission, data transmission, arithmetic logic units and floating point operators for calculation and information processing: the memory is used for storing data. The arithmetic logic unit, the floating-point arithmetic unit and the memory unit are connected by electromagnetic waves to form a processing terminal. The invention can realize low exchange delay and high transmission bandwidth of the optical processor by taking the electromagnetic wave as a carrier for transmitting data.

Description

Photon chip for accelerating photon calculation and signal processing

Technical Field

The invention relates to a photon chip for photon calculation acceleration and signal processing acceleration

Background

The performance of the processor is increased by about 55% per year in the last decades, while the increase rate of the memory performance is about 10% per year, which has been accumulated for a long time, the unbalanced development rate causes the current memory access speed to seriously lag behind the computing speed of the processor, and the memory access bottleneck causes the high-performance processor to hardly exert the required efficacy.

Compared with electrons, electromagnetic waves have the inherent advantage as information carriers: ultrahigh speed, ultrahigh bandwidth and ultralow loss. In particular, optical fibers, millimeter waves, centimeter waves Sub-6, etc. are particularly prominent, so that carriers for information and data transmission are collectively referred to herein as electromagnetic waves.

Millimeter waves and centimeter waves in electromagnetic waves have extremely fast response time when information is transmitted. The information rate can reach dozens of Tb/s, and the performance can be improved by hundreds of times. And secondly, the electronic tag has extremely high information capacity, and is 3 to 4 orders of magnitude higher than that of the electronic tag. Low switching delay and high transmission bandwidth can be achieved with novel techniques.

Disclosure of Invention

In view of the above, a photonic chip is invented. On the basis of the principle of a processor chip, the processor chip is divided into various modules with different sizes according to the chip principle and functions, and the input and output ends of the modules are respectively connected with the transmitting end and the receiving end of the millimeter waves. The control signal is output by the cpu. The millimeter wave plays the role of an original data bus in the CPU, and meanwhile, the millimeter wave also replaces a part of replaceable connecting lines, so that data and signals are transmitted by the millimeter wave. The process terminations are further formed by interconnects. Millimeter waves are used as carriers of data transmission, data to be transmitted are transmitted out and received in, and calculation and processing are completed by processing output results. The transmission and processing of mass data are effectively solved. The stability and the processing efficiency are improved.

In order to achieve the above object, the present invention adopts the following technical solutions.

An optical processor chip comprising: electromagnetic waves, arithmetic logic units and floating-point operators and memory units.

The electromagnetic wave can be carrier wave signals due to different use scenes, centimeter wave sub-6ghz can also be carrier wave signals, bluetooth, optical fibers and the like, and because the millimeter wave signals are all light waves, the light waves which can be used as the carrier wave signals to transmit data are collectively called as the electromagnetic waves.

On the basis of the principle of a processor chip, the processor chip is divided into an Arithmetic Logic Unit (ALU), a floating point arithmetic unit (FPU), a storage unit module and other size modules according to the chip principle and functions. And the input and output ends of each module are respectively connected with the sending end and the receiving end of the millimeter wave. The millimeter wave is used for transmitting data to be transmitted, the millimeter wave is used for replacing the function of a primary data bus in a CPU, meanwhile, the millimeter wave is used for replacing a part of replaceable connecting lines for data transmission, electromagnetic waves are used as carriers for data or signal transmission, the data or signals to be transmitted are transmitted out and received, a processing terminal is further formed by interconnection, and calculation and processing are completed by processing output results. The transmission and processing of mass data are effectively solved. The stability and the processing efficiency are improved. The invention can realize low exchange delay and high transmission bandwidth by using the electromagnetic wave as a carrier for transmitting data.

Claims

1. An optical processor chip for photon computation acceleration and signal processing acceleration, comprising: electromagnetic waves, arithmetic logic units and memory units.

2. The processor: the different scenes refer to a CPU (central processing unit) or a GPU (graphic processing unit).

3. The electromagnetic wave can be carrier wave signals due to different use scenes, centimeter wave sub-6ghz can also be carrier wave signals, bluetooth, optical fibers and the like, and because the millimeter wave signals are all light waves, the light waves which can be used as the carrier wave signals to transmit data are collectively called as the electromagnetic waves.

4. As a carrier for data signal transmission, all data and signals needing calculation and processing are transmitted by electromagnetic waves.

5. The electromagnetic wave is a channel for transmitting information by the memory device and the input and output device, and the external device is connected with the transmitting and receiving ends of the electromagnetic wave through the corresponding interface circuit.

6. The electromagnetic wave replaces the function of the original data bus in the CPU, and meanwhile, the electromagnetic wave also replaces part of circuits connected in the replaceable modules to carry out data transmission.

7. The arithmetic logic unit and the floating-point arithmetic unit are used for calculation and information processing.

8. The memory is used for storing data.

9. The arithmetic logic unit, the floating-point arithmetic unit and the memory unit are connected by electromagnetic waves to form a processing terminal.

10. The control module is used for controlling the processes of data input and output and calculation storage of the chip.