PGU

Pulse Generator Unit

PGU

Pulse Generator Unit

Overview

The PGU, trusted by leading quantum research laboratories worldwide, offers unmatched scalability with the highest number of output channels in its class. Designed to generate ultra-precise pulses, it ensures accurate time synchronization and seamless device orchestration, making it an indispensable tool for advancing quantum computing.

12 pulse output channels

Minimum 10ps resolution output synchronization

Generates pulses of over 1k at arbitrary timings

Equipped with a Python library, enabling researchers with minimal coding experience to use it effortlessly

Cloud computing supported

Data transmission speeds of up to 1Gbps using Gigabit Ethernet

Provides a customized experimental experience optimized for the user's environment developed with SDT's IP*

Patent application number 10-2024-0061144

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PGU brochure

Functional Description

The SDT PGU is an advanced pulse generation device designed for quantum computing systems, enabling precise time synchronization and sequence control. Essential for Nitrogen Vacancy-based quantum computer experiments and reliability testing of experimental equipment, it supports up to 12 output channels—the highest in its class. With the capability to combine arbitrary timing pulses at each transition point, it offers unparalleled flexibility for complex experiments.

Seamlessly integrated with cloud computing, the PGU enables scheduling and automation across experimental devices, significantly reducing researchers' manual workload. Additionally, its Python library ensures effortless usability, empowering researchers to conduct experiments without specialized coding expertise.

SDT PGU is a device that generates a multitude of pulses necessary for quantum computing systems, utilized for precise time synchronization and sequence control, and is essential for Nitrogen Vacancy-based quantum computer experiments and the reliability testing of experimental equipment. The PGU, which supports the maximum level of 12 output channels compared to similar product lines, offers the ability to combine arbitrary timing pulses at each Transition Point.

Through cloud computing support, it enables scheduling and automation between experimental equipment in conjunction with other experimental devices, significantly reducing the manual labor of researchers. Additionally, it provides a Python library that allows experiments to be carried out conveniently without requiring specialized development knowledge.

Application

The SDT PGU plays a critical role in quantum computers based on Nitrogen Vacancy Centers. Through the SDT PGU, devices such as CCU, APD, Laser, and AWG are synchronized very precisely, allowing for effective control of qubits and precise measurement of states. This minimizes error rates during quantum state control and measurement. Additionally, the PGU is utilized to efficiently generate high-precision digital signals using Python.