Classiq Releases Version 1.0 to Formalize Quantum Software Engineering

Classiq has announced the milestone release of Classiq 1.0, a major version of its quantum software platform designed to transition quantum development from experimental proofs-of-concept to repeatable engineering workflows. The update establishes a “production-ready” baseline for enterprise R&D teams by enforcing software discipline through built-in verification, language expressiveness, and a continuous path from classical problem definition to quantum execution. This release consolidates recent advancements in compiler correctness and AI-driven synthesis, positioning the platform as a foundational layer for teams building long-term, hardware-agnostic quantum applications.

The 1.0 platform is engineered to be hardware-aware, automatically adapting quantum models to the physical constraints of selected backends—including QPUs, GPU-based simulators, and HPC environments—without requiring manual rewrites. This “design once, deploy anywhere” capability is reinforced by integrated cost tracking and memory optimization tools, aimed at reducing the operational overhead of large-scale research. By partnering with major hyperscalers and hardware providers, Classiq aims to bridge the gap between classical domain expertise and quantum hardware realities, ensuring that algorithmic progress remains durable as the underlying hardware landscape evolves.