Integrated circuit software
The company develops a number of technologies for creating custom integrated circuits. For example, its Virtuoso Platform, later renamed Virtuoso Studio,[31] incorporates tools for designing full-custom integrated circuits.[32] In 2019, Cadence introduced its Spectre X parallel circuit simulator, so that users could distribute time- and frequency-domain simulations across hundreds of CPUs for speed.[33] Cadence also offers AWR, a radio frequency to millimeter wave design environment for designing 5G/wireless products. AWR is used for communications, aerospace and defense, semiconductor, computer, and consumer electronics.[34][35]
Digital implementation and signoff
Cadence has a number of digital implementation and signoff tools, including Genus, Innovus, Tempus & Voltus, among others. In 2020, Cadence integrated its Innovus place and route engine and optimizer into Genus Synthesis.[36] Stratus is Cadence's high-level synthesis tool, and is used to create RTL implementations from C, C++, or SystemC code.[37] Other formal verification and signoff tools include Conformal Equivalence Checker,[38] Joules RTL Power Solution,[39] Quantus Extraction Solution,[40] and Cadence's Modus DFT Software Solution.[41]
System verification
Cadence has developed a number of formal verification products for chip design. JasperGold is a formal verification tool, initially introduced in 2003[42] and upgraded with machine learning in 2019.[43] is a verification management tool for tracking the verification process.[44][45] Cadence announced Perspec System Verifier in 2014 for defining and verifying system-level verification scenarios,[46] with Perspec made compatible with the Accellera Portable Test and Stimulus Standard (PSS) several years later.[47] Introduced in 2017, Cadence's parallel simulator Xcelium is based on a multi-core parallel computing
Hardware emulation
In 2015, Cadence announced the Palladium Z1 hardware emulation platform,[49] for verifying billion-gate designs.[50] which was based on emulation technology from Cadence's 1998 acquisition of Quickturn.[51] Cadence announced Palladium Z2 in 2021 as a successor to the Z1 platform with improved performance.[52][53]
The Protium FPGA prototyping platform was introduced in 2014,[54] followed by the Protium S1 in 2017, which was built on Xilinx
SIP blocks
Cadence supplies semiconductor intellectual property (SIP) blocks, covering interface design, USB, MIPI, ethernet,[61] memory, analog, SoC peripherals, and data plane processing units. Cadence also develops chip verification technologies including simulators and formal verification tools. Cadence develops Tensilica DSP processors for audio, vision, wireless modems, and convolutional neural nets. Tensilica DSP processors IP in 2019[62] included: Tensilica Vision DSPs for imaging, vision, and AI processing;[63][64] Tensilica HiFi DSPs for audio processing;[65]
PCB and packaging technologies
The company provides several tools for the design of printed circuit boards (PCB) and of chip packages. Its Allegro Platform covers co-design of integrated circuits, packages, and PCBs on industrial scale. The OrCAD/PSpice product line aims at smaller design teams and individual PCB designers.[73] OrbitIO Interconnect Designer is a die/package planning & route optimization tool.[74] InspectAR uses augmented reality to map out complicated circuit board electronics for real-time labelling of board schematics.[75]
Systems design and analysis
The company has a number of tools for system analysis. Sigrity offers tools for signal, power integrity, and thermal integrity analysis and IC package design.[76] Introduced in April 2019 as part of Cadence's expansion into system analysis, Clarity is a 3D field solver for electromagnetic analysis, that uses distributed adaptive meshing to partition jobs across multiple cores.[77] In September 2019, Cadence announced Celsius, a parallel architecture thermal solver that uses finite element analysis for solid structures and computational fluid dynamics (CFD) for fluids.[78] Cascade Technologies, Inc includes hi-fidelity CFD solvers for multiphysics analysis of turbulence fluid flow.[79] Acquired by Cadence from Pointwise in 2021, Fidelity Pointwise is for computational fluid dynamics (CFD) mesh generation.[80]
Machine design and digital twins
Cadence in 2021 acquired a number of system analysis products from NUMECA, known for software tools used in the automotive, marine, aerospace, and power generation industries.[81] Among the tools were Fidelity (formerly known as OMNIS), a computational fluid dynamics (CFD), mesh generation, multi-physics simulation, and optimization product.[82] Its Cadence Reality digital twin platform creates manipulatable digital models of designs or factories.[83]
Cadence Design Systems in February 2024 launched its Cadence Millennium Enterprise Multiphysics Platform, or Millennium M1. The hardware/software combination was designed for creating digital twins.[84] It draws from Cadence's older Fidelity CFD suite.[85]
Drug design
Cadence's OpenEye Scientific division has computational molecular modeling and simulation software used by pharmaceutical and biotechnology companies for purposes such as drug discovery and antibody discovery.[86] The Orion is OpenEye's software-as-a-service platform.[87] OpenEye Scientific has its headquarters in Santa Fe, New Mexico.
Artificial intelligence
According to Reuters, in 2023 Cadence has been "providing tools to design chips for AI" and "adding AI into its own software to help in the complex process of designing chips."[88] Cerebrus was released in 2021, and is a machine learning-based chip design software which utilizes reinforcement learning and is meant to automatically optimize the Cadence digital design flow.[89][90] In 2022, Cadence introduced the AI platform Optimality Intelligent System Explorer, a system design tool with multiphysics system analysis software. Designed to be compatible with Clarity 3D and SigrityX, Microsoft was an early adopter.[91] In September 2023, Cadence released software called ChipGPT, allowing companies to create custom silicon with assistance from AI.[92]