PJWC

QUANTUM COMPUTING SOLUTIONS

Pioneering the future of computing with quantum technologies, high-performance systems, and advanced computational solutions that redefine what's possible in scientific research and enterprise applications.

Company Information

Director MRS ELIZABETH MARJORIE SUZANNE WILKINSON
D-U-N-S® Number 230228775
Registered Office 50 Beckfield Lane
City York
Postcode YO26 5RJ
Quantum Computing Research Center Strategic technology hub in York's innovation corridor
Specializing in quantum computing research and high-performance systems

Computing at Quantum Scale

PJWC specializes in quantum computing infrastructure, high-performance computing clusters, and advanced computational algorithms that solve problems previously considered unsolvable. We're pushing the boundaries of computational science.

Explore Quantum Solutions

Quantum Computing Services

Advanced computational solutions for the quantum era

Quantum Computing Infrastructure

Design and implementation of quantum computing systems, including superconducting qubits, trapped ions, and topological quantum computers.

We provide complete quantum computing stacks from hardware to quantum error correction and quantum compilers.

Quantum Hardware Solutions:

• Superconducting qubit systems with coherence times exceeding 100µs

• Trapped ion quantum computers with 99.9% gate fidelity

• Photonic quantum computing platforms for quantum networking

• Cryogenic systems operating at 10mK temperatures

• Quantum error correction with surface code implementations

  • Superconducting qubit systems
  • Trapped ion quantum computers
  • Photonic quantum platforms
  • Cryogenic infrastructure
  • Quantum error correction
  • Quantum control systems
  • Calibration and maintenance

Implementation & Integration:

We deploy quantum computing systems with full integration into existing HPC environments. Our solutions include quantum-classical hybrid computing frameworks, quantum cloud access, and on-premises quantum computing clusters with real-time monitoring and calibration systems.

Qiskit Cirq Superconducting Qubits Trapped Ions Quantum Error Correction Cryogenics Quantum Control

Quantum Algorithms & Software

Development of quantum algorithms for optimization, machine learning, cryptography, and scientific simulations. We translate classical problems into quantum solutions.

Our quantum software stack includes quantum compilers, simulators, and development tools for quantum programming.

Quantum Algorithm Development:

• Quantum machine learning for pattern recognition and classification

• Quantum optimization for logistics and financial modeling

• Quantum chemistry simulations for drug discovery

• Quantum cryptography and secure communications

• Quantum Monte Carlo methods for financial risk analysis

  • Quantum machine learning
  • Quantum optimization algorithms
  • Quantum chemistry simulations
  • Quantum cryptography
  • Quantum Monte Carlo
  • Quantum compilers
  • Quantum simulators

Quantum Software Stack:

We develop full-stack quantum software solutions including quantum circuit optimization, error mitigation strategies, and hybrid quantum-classical algorithms. Our tools support multiple quantum computing platforms and provide seamless integration with existing classical computing infrastructure.

Q# PennyLane TensorFlow Quantum Quantum ML VQE Algorithms QAOA Shor's Algorithm

High-Performance Computing

Scalable HPC clusters, GPU computing infrastructure, and exascale computing solutions for scientific research and enterprise applications.

We design computing systems that push the boundaries of classical computation while integrating seamlessly with quantum computing resources.

HPC Infrastructure:

• Exascale computing clusters with petabyte-scale storage

• GPU-accelerated computing for AI and scientific simulations

• Quantum-classical hybrid computing environments

• High-speed interconnects (InfiniBand, Omni-Path)

• Liquid cooling systems for maximum efficiency

  • Exascale computing clusters
  • GPU-accelerated systems
  • Quantum-classical hybrids
  • High-speed interconnects
  • Liquid cooling infrastructure
  • Parallel file systems
  • Cluster management software

HPC Implementation:

We deploy complete HPC solutions including hardware provisioning, software stack installation, performance tuning, and ongoing maintenance. Our systems are optimized for specific workloads including computational fluid dynamics, molecular dynamics, climate modeling, and artificial intelligence training.

Slurm OpenMPI CUDA NVIDIA A100 InfiniBand Lustre Kubernetes

Featured Quantum Project

Quantum Chemistry Simulation Platform

Quantum Computing for Drug Discovery

We developed a quantum computing platform for molecular simulation that accelerates drug discovery by simulating complex molecular interactions at quantum accuracy.

The platform uses variational quantum eigensolver (VQE) algorithms to calculate molecular energies with accuracy surpassing classical methods, reducing simulation time from months to hours for complex molecules.

  • Simulates molecules with up to 100 atoms quantum-accurately
  • 95% reduction in simulation time compared to classical methods
  • Integration with 127-qubit quantum processor
  • Used by 15 pharmaceutical companies for drug discovery
  • Quantum error mitigation achieving 99.5% accuracy
  • Hybrid quantum-classical optimization algorithms
  • Real-time molecular visualization interface

Technologies Implemented

VQE Algorithm
Qiskit
PennyLane
Superconducting Qubits
Python
NVIDIA A100
Docker
Kubernetes
PostgreSQL

Scientific Impact

95% faster simulations • 100 atom molecules
15 pharmaceutical partners • 99.5% accuracy
127 qubit quantum processor • 50x speedup