QMware Quantum Hypervisor: Industry standard for Hybrid Quantum Computing
In the rapidly evolving computing ecosystem, managing both classical and quantum resources is crucial for enterprises aiming to leverage cutting-edge quantum technologies. QMware’s Quantum Hypervisor, qognite™, enables enterprises to bridge the gap between classical and quantum computing, optimizing resources and preparing for the future of hybrid computing.
Empowering enterprises with qognite™, the QMware Quantum Hypervisor
In the modern computing ecosystem, the role of a hypervisor is critical to managing virtual machines (VMs) and saving costly infrastructure. Also known as a virtual machine monitor or VMM, a hypervisor enables a host computer to support multiple guest VMs by virtually sharing its resources, such as memory and processing power.
What is QMware’s Quantum Hypervisor?
QMware takes this concept to quantum computers in general with its Quantum Hypervisor qognite™. This sophisticated middleware manages multiple quantum computing applications to run in parallel on an underlying hybrid quantum computing hardware. qognite™ manages Quantum Control Units (QCUs), which are the classical controllers responsible for managing qubit states and performing operations on the quantum system. QMware’s Quantum Hypervisor also manages the allocation of qubit registers to be in-memory accessible by hybrid quantum applications.
QMware’s Quantum Hypervisor: A gateway to Quantum Cloud Computing
Why a Quantum Hypervisor is essential for modern data centers
Given the fact that Quantum Processing Units (QPUs) still cost millions of Euros, the optimal utilization of such hardware is crucial for its commercially viable use. Another important feature of qognite™ ist its downward compatibility with future hardware so that enterprises can rely on using their once developed software for hybrid quantum computers ad infinitum, just like the industry standard of the x86 instruction set which has been used since 1978, uninterruptedly.
What are the features of QMware’s Quantum Hypervisor?
“qognite™ integrates CPU, GPU, and QPU workloads in a memory-centric computing architecture, reducing latency and improving the efficiency of data movement between classical and quantum processing units. In this way qognite™ makes the virtualization of QPUs possible by translating requests in both directions between the Quantum Control Units and containerized Hybrid Quantum Applications.
qognite™ supports parallel running quantum application containers on a CPU-GPU-QPU memory-centric compute architecture. By enabling parallel quantum application containers, qognite™ allows businesses to accelerate quantum application development cycles, thus reducing time-to-market for innovations that require intensive computational workloads.
Additionally, qognite™ works hand in hand with NVIDIAs CUDA parallel computing API, as well as MPI.
Quantum Computing for scalable business operations powered by QMware’s Quantum Hypervisor
Streamlining Quantum Computing adoption
qognite™ allows for compute intensive business applications to be seamlessly migrated to Hybrid Quantum Applications by using QMware’s Cpp compiler extensions. The so delivered instruction set is optimized to handle both classical and quantum information as Intermediate Representations of Hybrid Quantum Algorithms. Based on that, many Quantum Software Development Kits or Frameworks can use an integrated system bearing qognite™ as their target architecture.
On-demand Quantum Computing access
QMware also provides its Quantum Hypervisor in the Cloud. This ensures the quantum computing resources to be readily available on-demand, enabling users to access quantum computing power when needed, scaling up or down based on their individual requirements. This flexibility is key to foster innovation and agility within software development teams.
Security and control
Despite the vast parallelism of quantum computing resources, provided by the Quantum Hypervisor, qognite™ lets maintain the users full control about their containers and the sensitive data and algorithms within. It delivers a secure and isolated environment for each instance of Hybrid Quantum Computing, ensuring integrity and confidentiality.
The hypervisor ensures that quantum computing applications run in a highly secure environment, implementing Post-Quantum Cryptography (PQC) measures for all containerized data transmissions, safeguarding sensitive algorithms and proprietary data.
Cost-effective quantum solutions
Virtualization platforms are built to optimally utilize the costly hardware resources. Thus, qognite™ not only represents a technical innovation but also an economical solution. Companies can now explore quantum computing in first use cases without the traditional barriers to entry, leveraging cloud-based quantum services to gain a competitive edge.
Simplified Quantum Computing development and deployment
Through our Quantum Hypervisor qognite™, the development and deployment of hybrid quantum computing applications become more accessible and manageable. It enables software developers to build and test quantum computing applications in a sandbox with a high-performance quantum computing simulator, fostering a smooth transition to quantum readiness.
Discover the ease of quantum computing with QMware’s qognite™ – your access to investment secured Hybrid Quantum Computing, where innovation meets cost-efficiency in the quantum age.