All IPs > Processor > Audio Processor
The Audio Processor category in our catalog of semiconductor IPs represents cutting-edge technology for enhancing and managing audio signals in various applications. Audio processors play a crucial role in manipulating sound signals, ensuring high fidelity and enriching audio experiences across a range of industries. These IPs are integral to the design of products that require precise audio control and enhanced sound quality.
Audio processor semiconductor IPs are commonly used in consumer electronics, including smart speakers, home theater systems, and high-end audio equipment. They enable advanced functionalities such as noise reduction, surround sound processing, and adaptive sound optimization, ensuring users enjoy crystal-clear audio. With the increasing demand for immersive audio experiences, these processors offer manufacturers the ability to deliver products that meet consumer expectations for quality and performance.
In addition to consumer electronics, audio processors are also widely used in the automotive industry. With the rise of in-car entertainment systems, these IPs allow manufacturers to integrate premium audio features into vehicles, providing a richer listening experience for drivers and passengers. From noise cancellation technologies to high-fidelity audio reproduction, audio processors are key in enhancing the audio environment inside modern vehicles.
Beyond these applications, audio processors are essential in mobile devices where space and power efficiency are crucial. Implementing semiconductor IPs for audio processing in smartphones and tablets helps manage audio playback and recording, offering features such as voice enhancement and audio streaming. As devices become more interconnected and audio-centric, the demand for advanced audio processor IPs is set to continue growing, offering endless possibilities for innovation in sound technology.
The Akida IP is a groundbreaking neural processor designed to emulate the cognitive functions of the human brain within a compact and energy-efficient architecture. This processor is specifically built for edge computing applications, providing real-time AI processing for vision, audio, and sensor fusion tasks. The scalable neural fabric, ranging from 1 to 128 nodes, features on-chip learning capabilities, allowing devices to adapt and learn from new data with minimal external inputs, enhancing privacy and security by keeping data processing localized. Akida's unique design supports 4-, 2-, and 1-bit weight and activation operations, maximizing computational efficiency while minimizing power consumption. This flexibility in configuration, combined with a fully digital neuromorphic implementation, ensures a cost-effective and predictable design process. Akida is also equipped with event-based acceleration, drastically reducing the demands on the host CPU by facilitating efficient data handling and processing directly within the sensor network. Additionally, Akida's on-chip learning supports incremental learning techniques like one-shot and few-shot learning, making it ideal for applications that require quick adaptation to new data. These features collectively support a broad spectrum of intelligent computing tasks, including object detection and signal processing, all performed at the edge, thus eliminating the need for constant cloud connectivity.
The Yitian 710 Processor is a groundbreaking component in processor technology, designed with cutting-edge architecture to enhance computational efficiency. This processor is tailored for cloud-native environments, offering robust support for high-demand computing tasks. It is engineered to deliver significant improvements in performance, making it an ideal choice for data centers aiming to optimize their processing power and energy efficiency. With its advanced features, the Yitian 710 stands at the forefront of processor innovation, ensuring seamless integration with diverse technology platforms and enhancing the overall computing experience across industries.
The Veyron V2 CPU represents Ventana's second-generation RISC-V high-performance processor, designed for cloud, data center, edge, and automotive applications. This processor offers outstanding compute capabilities with its server-class architecture, optimized for handling complex, virtualized, and cloud-native workloads efficiently. The Veyron V2 is available as both IP for custom SoCs and as a complete silicon platform, ensuring flexibility for integration into various technological infrastructures. Emphasizing a modern architectural design, it includes full compliance with RISC-V RVA23 specifications, showcasing features like high Instruction Per Clock (IPC) and power-efficient architectures. Comprising of multiple core clusters, this CPU is capable of delivering superior AI and machine learning performance, significantly boosting throughput and energy efficiency. The Veyron V2's advanced fabric interconnects and extensive cache architecture provide the necessary infrastructure for high-performance applications, ensuring broad market adoption and versatile deployment options.
The xcore.ai platform by XMOS is a versatile, high-performance microcontroller designed for the integration of AI, DSP, and real-time I/O processing. Focusing on bringing intelligence to the edge, this platform facilitates the construction of entire DSP systems using software without the need for multiple discrete chips. Its architecture is optimized for low-latency operation, making it suitable for diverse applications from consumer electronics to industrial automation. This platform offers a robust set of features conducive to sophisticated computational tasks, including support for AI workloads and enhanced control logic. The xcore.ai platform streamlines development processes by providing a cohesive environment that blends DSP capabilities with AI processing, enabling developers to realize complex applications with greater efficiency. By doing so, it reduces the complexity typically associated with chip integration in advanced systems. Designed for flexibility, xcore.ai supports a wide array of applications across various markets. Its ability to handle audio, voice, and general-purpose processing makes it an essential building block for smart consumer devices, industrial control systems, and AI-powered solutions. Coupled with comprehensive software support and development tools, the xcore.ai ensures a seamless integration path for developers aiming to push the boundaries of AI-enabled technologies.
The Chipchain C100 is a pioneering solution in IoT applications, providing a highly integrated single-chip design that focuses on low power consumption without compromising performance. Its design incorporates a powerful 32-bit RISC-V CPU which can reach speeds up to 1.5GHz. This processing power ensures efficient and capable computing for diverse IoT applications. This chip stands out with its comprehensive integrated features including embedded RAM and ROM, making it efficient in both processing and computing tasks. Additionally, the C100 comes with integrated Wi-Fi and multiple interfaces for transmission, broadening its application potential significantly. Other notable features of the C100 include an ADC, LDO, and a temperature sensor, enabling it to handle a wide array of IoT tasks more seamlessly. With considerations for security and stability, the Chipchain C100 facilitates easier and faster development in IoT applications, proving itself as a versatile component in smart devices like security systems, home automation products, and wearable technology.
The Maverick-2 Intelligent Compute Accelerator (ICA) by Next Silicon represents a transformative leap in high-performance compute architecture. It seamlessly integrates into HPC systems with a pioneering software-defined approach that dynamically optimizes hardware configurations based on real-time application demands. This enables high efficiency and unparalleled performance across diverse workloads including HPC, AI, and other data-intensive applications. Maverick-2 harnesses a 5nm process technology, utilizing HBM3E memory for enhanced data throughput and efficient energy usage.\n\nBuilt with developers in mind, Maverick-2 supports an array of programming languages such as C/C++, FORTRAN, and OpenMP without the necessity for proprietary stacks. This flexibility not only mitigates porting challenges but significantly reduces development time and costs. A distinguishing feature of Maverick-2 is its real-time telemetry capabilities that provide valuable insights into performance metrics, allowing for refined optimizations during execution.\n\nThe architecture supports versatile interfaces such as PCIe Gen 5 and offers configurations that accommodate complex workloads using either single or dual-die setups. Its intelligent algorithms autonomously identify computational bottlenecks to enhance throughput and scalability, thus future-proofing investments as computing demands evolve. Maverick-2's utility spans various sectors including life sciences, energy, and fintech, underlining its adaptability and high-performance capabilities.
The RayCore MC is a revolutionary real-time path and ray-tracing GPU designed to enhance rendering with minimal power consumption. This GPU IP is tailored for real-time applications, offering a rich graphical experience without compromising on speed or efficiency. By utilizing advanced ray-tracing capabilities, RayCore MC provides stunning visual effects and lifelike animations, setting a high standard for quality in digital graphics. Engineered for scalability and performance, RayCore MC stands out in the crowded field of GPU technologies by delivering seamless, low-latency graphics. It is particularly suited for applications in gaming, virtual reality, and the burgeoning metaverse, where realistic rendering is paramount. The architecture supports efficient data management, ensuring that even the most complex visual tasks are handled with ease. RayCore MC's architecture supports a wide array of applications beyond entertainment, making it a vital tool in areas such as autonomous vehicles and data-driven industries. Its blend of power efficiency and graphical prowess ensures that developers can rely on RayCore MC for cutting-edge, resource-light graphic solutions.
HFFx Auto is a high-frequency restoration technology designed to address audio quality degradation resulting from the use of lossy codecs. This technology is incredibly versatile, functioning effectively with both streamed audio-visual content and digital broadcast services. Its adaptability enables seamless adjustment across varying channel bandwidths and is capable of enhancing audio originally constrained by low sampling rates or sources like analogue tapes. Beyond restoration, HFFx Auto aids in up-conversion to higher sampling rates, offering a more open and natural sound experience. This capability makes it an indispensable tool for digital TV and other audio applications where enhancing the clarity and quality of sound is crucial. By automatically restoring bandwidth and compensating for frequency loss, HFFx Auto ensures that audio outputs remain vibrant and true to the original source material.
Polar ID from Metalenz offers a cutting-edge face unlock solution, using advanced meta-optic technology to provide secure, high-resolution facial recognition capabilities. It captures the unique "polarization signature" of a human face, making it resistant to both 2D photos and sophisticated 3D masks. Polar ID operates efficiently in a variety of lighting conditions, from bright daylight to dark environments, ensuring its utility extends across all smartphone models without sacrificing security or user experience. This technology replaces complex structured light modules, incorporating a single near-infrared polarization camera and active illumination source. It significantly reduces costs and footprint, supporting a broad adoption across hundreds of millions of mobile devices. With its low price point and high performance, Polar ID elevates smartphone security, offering robust protection for digital transactions and identity verification. By enabling this on an embedded platform with compatibility for Qualcomm's Snapdragon processors, Metalenz ensures widespread applicability. The key advantage of Polar ID is its affordability and ease of integration, as it eliminates the need for larger, more intrusive notches in phone designs. Its sophisticated polarization sensing means secure authentication is possible even if the user wears sunglasses or masks. Polar ID sets a new benchmark in smartphone security by delivering convenience and enhanced protection, marking it as the first polarization sensor available for smartphones.
The RISCV SoC developed by Dyumnin Semiconductors is engineered with a 64-bit quad-core server-class RISCV CPU, aiming to bridge various application needs with an integrated, holistic system design. Each subsystem of this SoC, from AI/ML capabilities to automotive and multimedia functionalities, is constructed to deliver optimal performance and streamlined operations. Designed as a reference model, this SoC enables quick adaptation and deployment, significantly reducing the time-to-market for clients. The AI Accelerator subsystem enhances AI operations with its collaboration of a custom central processing unit, intertwined with a specialized tensor flow unit. In the multimedia domain, the SoC boasts integration capabilities for HDMI, Display Port, MIPI, and other advanced graphic and audio technologies, ensuring versatile application across various multimedia requirements. Memory handling is another strength of this SoC, with support for protocols ranging from DDR and MMC to more advanced interfaces like ONFI and SD/SDIO, ensuring seamless connectivity with a wide array of memory modules. Moreover, the communication subsystem encompasses a broad spectrum of connectivity protocols, including PCIe, Ethernet, USB, and SPI, crafting an all-rounded solution for modern communication challenges. The automotive subsystem, offering CAN and CAN-FD protocols, further extends its utility into automotive connectivity.
The Mixed-Signal CODEC offered by Archband Labs integrates advanced analog and digital audio processing to deliver superior sound quality. Designed for a variety of applications such as portable audio devices, automotive systems, and entertainment systems, this CODEC provides efficiency and high performance. With cutting-edge technologies, it handles complex signal conversions with minimal power consumption. This CODEC supports numerous interface standards, making it a versatile component in numerous audio architectures. It's engineered to offer precise sound reproduction and maintains audio fidelity across all use cases. The integrated components within the CODEC streamline design processes and reduce the complexity of audio system implementations. Furthermore, the Mixed-Signal CODEC incorporates features that support high-resolution audio, ensuring compatibility with high-definition sound systems. It's an ideal choice for engineers looking for a reliable and comprehensive audio processing solution.
The Codasip L-Series DSP Core is tailored for applications that require efficient digital signal processing capabilities. Known for its adaptability and top-notch performance, this core is a prime choice for tasks demanding real-time processing and a high level of computational density. The L-Series embraces the RISC-V open standard with an enhanced design that allows for customizing the instruction set and leveraging unique microarchitectural features. Such adaptability is ideal for applications in industries where digital signal manipulation is critical, such as audio processing, telecommunications, and advanced sensor applications. Users are empowered through Codasip Studio to implement specific enhancements and modifications, aligning the core's capabilities with specialized operational requirements. This core not only promises high-speed processing but also ensures that resource allocation is optimized for each specific digital processing task.
The BAT Audio Platform represents a leading-edge audio IP solution developed for battery-powered System-on-Chip (SoC) applications. Intelligently designed to offer unparalleled audio fidelity, this platform significantly enhances auditory features in SoCs, accommodating uses from active noise cancellation and beamforming to voice user interfaces. With a focus on low energy consumption, BAT ensures extended battery life, optimizing devices for efficient operations. Offering an expansive array of off-the-shelf solutions combined with numerous customization options, BAT enables rapid market readiness and risk reduction by building upon top-tier, silicon-proven IPs. This platform not only accelerates project timelines but also decreases development costs, freeing clients to focus on their core competencies while leveraging Dolphin's audio expertise. Incorporating features like WhisperTrigger for ultra-low-power voice activity detection and WhisperExtractor for energy-saving analog feature extraction, BAT represents a holistic approach to advancing audio technology. The platform’s digital and mixed-signal solutions provide seamless integration and configuration, ensuring high fidelity and low power consumption across a spectrum of applications from consumer electronics to IoT devices.
The Veyron V1 is a high-performance RISC-V CPU designed to meet the rigorous demands of modern data centers and compute-intensive applications. This processor is tailored for cloud environments requiring extensive compute capabilities, offering substantial power efficiency while optimizing processing workloads. It provides comprehensive architectural support for virtualization and efficient task management with its robust feature set. Incorporating advanced RISC-V standards, the Veyron V1 ensures compatibility and scalability across a wide range of industries, from enterprise servers to high-performance embedded systems. Its architecture is engineered to offer seamless integration, providing an excellent foundation for robust, scalable computing designs. Equipped with state-of-the-art processing cores and enhanced vector acceleration, the Veyron V1 delivers unmatched throughput and performance management, making it suitable for use in diverse computing environments.
MajEQ Pro is an advanced equalizer tailored for professional audio applications, allowing both static and dynamic EQ adjustments to match specific frequency response targets. It handles tasks such as venue correction or adapting to atmospheric changes at live events. This tool encompasses features including high and low-pass filters with variable slopes, tone controls, and unique filter designs such as Bell or Presence filters with customizable gain, frequency, and Q.
The Universal DSP Library is designed to simplify digital signal processing tasks. It ensures efficient and highly effective operations by offering a comprehensive suite of algorithms and functions tailored for various DSP applications. The library is engineered for optimal performance and can be easily integrated into FPGA-based designs, making it a versatile tool for any digital signal processing needs. The comprehensive nature of the Universal DSP Library simplifies the development of complex signal processing applications. It includes support for key processing techniques and can significantly reduce the time required to implement and test DSP functionalities. By leveraging this library, developers can achieve high efficiency and performance in their digital signal processing tasks, thereby optimizing overall system resources. Moreover, the DSP library is designed to be compatible with a wide range of FPGAs, providing a flexible and scalable solution. This makes it an ideal choice for developers seeking to create innovative solutions across various applications, ensuring that their designs can handle demanding signal processing requirements effectively.
The Individual IP Core Modules by ResQuant are comprehensive components engineered to support diverse post-quantum cryptographic standards, including Dilithium, Kyber, XMSS, SPHINCS+, AES, and the SHA-2 family. These modules offer organizations the flexibility to select specific cryptographic functionalities tailored to their security needs, without the necessity of entire systems or hardware changes. Each module is designed to integrate easily into existing infrastructure, ensuring minimal disruption while enhancing security measures against potential future quantum threats. This approach allows industries to gradually implement PQC standards, ensuring a seamless transition to quantum-resistant cryptographic measures. Tailored for flexibility, the ResQuant Individual IP Core Modules can be used across a wide array of applications, from IoT devices to complex military and IT systems. By offering component-level integration, these modules empower companies to future-proof their offerings incrementally while maintaining robust security practices in their operations.
Suite-Q SW is a versatile cryptographic software library designed to offer flexibility in code size, performance, and memory usage, making it an essential tool for developers working on resource-limited devices. Engineered for high adaptability, this software package provides a robust framework for implementing secure cryptographic operations across diverse platforms, including 8-bit to 64-bit processors. The library is meticulously crafted to support various configuration options that balance speed with memory efficiency, ensuring it meets custom specifications while preserving system integrity. Portable C code and high-speed, hand-optimized assembly variants are available to provide the ideal blend of compatibility and performance required in modern applications. Key features of Suite-Q SW include seamless integration as plug-in modules, support for a wide range of hardware offloads, and extensive compatibility with general-purpose and embedded CPUs. Validated through rigorous testing and performance measurements, it provides a reliable basis for secure software development, ensuring rapid deployment with minimized risk. As such, Suite-Q SW remains an indispensable part of PQSecure's comprehensive cryptographic offerings, perfect for adapting to the ever-changing landscape of digital security.
Suite-Q HW is a robust system-on-chip (SoC) solution that envelops all the necessary cryptography required for secure protocols within compact and efficient hardware. Targeted at both high-end servers and low-end embedded systems, this solution emphasizes the dual benefits of scalability and adaptability. Suite-Q HW efficiently offloads demanding symmetric and asymmetric cryptographic processes by leveraging specialized accelerators, offering enhanced execution speeds that cater to different application requirements. A key component of its utility lies in its support for a wide array of cryptographic operations. This includes classical public key methods, such as ECDSA and ECDH, alongside emerging post-quantum techniques within isogeny and lattice frameworks. The hardware is further augmented by secure hash algorithms and diverse AES encryption modes, delivering comprehensive protection across a variable security landscape. Incorporating optional Differential Power Analysis (DPA) countermeasures and validated security standards, Suite-Q HW ensures security for sensitive data against contemporary and emerging threats. It facilitates integration with existing development flows across SoCs and FPGAs, optimizing power and silicon footprint according to specific needs. Furthermore, the hardware package provides comprehensive resources for integration, from testbench data to simulation scripts, enhancing its adaptability and effectiveness in today's digital security paradigm.
NMFx is a specialized audio effect that enhances listening experiences in environments where sound level control is essential. Its principal function is to maintain speech intelligibility even at low volumes, ensuring that dialogue remains clear without the need to overly amplify softer sounds. Concurrently, it suppresses loud noises, such as explosions in movie tracks, to prevent disturbance to others in proximity, like an adjacent room or apartment. This dual functionality makes NMFx ideal for late-night listening or when maintaining a quiet environment is crucial. It strategically balances the audio output, offering listeners a pleasant experience without losing the dynamics of the original sound, thereby making it popular among home entertainment users.
The SCR5 application core by Syntacore is crafted for high-efficiency, Linux-capable applications, focusing on delivering a balance between robust performance and resource optimization. Its 9-stage in-order pipeline is augmented by an integrated Memory Management Unit (MMU), alongside L1 and L2 caches, enabling enhanced cache coherency—a critical requirement for applications that demand consistent data processing and management. This core is particularly attuned to industries such as artificial intelligence, machine learning, data centers, and mobile computing. Its seamless compatibility with SMP configurations, scaling up to 4 cores, ensures that even complex workloads can be handled efficiently without sacrificing operational efficiency or computational power. SCR5's adaptability and comprehensive support features make it an outstanding choice for developers aiming to craft high-performance applications. Syntacore's supplementary tools, including development kits and SDKs, provide a strong support ecosystem for leveraging the RISC-V architecture, empowering developers to innovate without constraints.
The Cottonpicken DSP Engine is a highly efficient processing solution designed for advanced image and signal processing applications. This engine primarily handles Bayer pattern decoding, transforming raw image data into formats like YUV 4:2:2, YUV 4:2:0, and RGB. It supports programmable delays, offering versatility in managing data processing timelines to meet specific application needs. A standout feature of the Cottonpicken DSP Engine is its ability to support various YUV conversions, including YCrCb and YCoCg, with integrated support for 3x3 and 5x5 filter kernels. This makes it ideal for complex matrix operations, allowing the engine to be cascaded for expanded processing capabilities. Operating at pixel clock speeds of up to 150 MHz, it provides high performance suitable for numerous platform dependencies. The DSP engine is provided as a closed-source netlist within a development package, ensuring secure and controlled deployment. This setup is advantageous for developers seeking a reliable, pre-tested solution for integrating DSP capabilities into their systems without releasing source code. It's especially beneficial in applications where proprietary technology and methods are to be protected, enabling users to leverage powerful DSP functions while safeguarding intellectual property.
The SmartFx Audio Effects Suite is an integrated audio enhancement package that combines several key features aimed at elevating sound output in consumer devices. It provides enhanced sound quality characterized by richer bass, dynamic range control, and a more natural sound experience. The SmartFx suite is highly user-friendly, featuring an intuitive real-time graphical user interface (GUI) that makes sound customization accessible to users of all technical levels. This suite is particularly beneficial for devices requiring dynamic audio adjustments to enhance the listening environment.
TimeServo is a sophisticated System Timer IP Core for FPGAs, providing high-resolution timing essential for line-rate independent packet timestamping. Its architecture allows seamless operation without the need for associated host processor interaction, leveraging a flexible PI-DPLL which utilizes an external 1 PPS signal, ensuring time precision and stability across applications. Besides functioning as a standalone timing solution within an FPGA, TimeServo offers multi-output capabilities with up to 32 independent time domains. Each time output can be individually configured, supporting multiple timing formats, including Binary 48.32 and IEEE standards, which offer great flexibility for timing-sensitive applications. TimeServo uniquely combines software control via an AXI interface with an internal, logically-heavy phase accumulator and Digital Phase Locked Loop mechanisms, achieving impressive jitter performance. Consequently, TimeServo serves as an unparalleled solution for network operators and developers requiring precise timing and synchronization in their systems.
Key ASIC offers robust Processor IP solutions, including processors such as ARM926EJ-S and ARM946E-S, designed for high-performance applications. These processors are integral to various consumer electronics, communication devices, and embedded systems, providing the computational power needed for complex tasks. Their Processor IPs are suitable for developing applications that demand real-time processing and high-speed performance. By incorporating these processors, developers can ensure efficient use of resources while achieving superior processing speeds. Key ASIC's Processor IP supports a variety of systems, enabling seamless integration into multiple platform architectures, thereby accelerating product development timelines and enhancing system capabilities. These processors are foundational in crafting customizable solutions that meet the expansive needs of today's technology-driven environment.
XMOS's xcore-200 is an advanced processor that excels in delivering multichannel audio processing and low-latency performance. Designed to support complex audio and voice processing requirements, it provides developers with the ability to integrate high-quality audio functionalities into their products. The xcore-200's architecture is engineered to allow precise control and processing capabilities, making it ideal for applications in consumer electronics and professional audio equipment. With an emphasis on reducing development time and enhancing product capabilities, the xcore-200 offers an adaptable solution equipped with an array of input and output options to meet diverse processing needs. Its powerful DSP capabilities ensure efficient processing of audio signals, enabling smoother, more reliable audio experiences for end-users. Moreover, the xcore-200 is optimized for power efficiency, supporting a range of applications without significant energy expenditure. The xcore-200 facilitates seamless integration with other technologies, making it a versatile choice for developers who need flexibility in their design process. Whether it's embedded AI functionalities or advanced audio processing demands, the xcore-200 provides a comprehensive platform for building sophisticated digital audio systems. Its capacity to manage multiple processing tasks concurrently ensures that products powered by this processor deliver robust and high-performance outcomes.
MajEQ offers a highly adaptable equalization tool aimed at achieving precise frequency response matching. It provides options for both semi-automated and fully automated tuning, which is beneficial for specific applications such as loudspeaker correction. This tool can either be used in a static mode, for fixed audio setups, or a dynamic mode, which continually adjusts for optimal performance in variable acoustic environments.
The TSP1 is an innovative neural network accelerator chip developed by ABR, designed to advance AI capabilities in battery-powered devices. It supports sophisticated applications such as natural voice interfaces and biosignal classification, demonstrating efficient data handling and low power consumption. This chip is engineered to process sensor signals robustly and independently, which enables highly efficient, state-space networks suitable for diverse applications. Benefiting from ABR's pioneering Legendre Memory Unit (LMU) state-space model, the TSP1 represents a new frontier in data processing efficiency, boasting remarkable power savings. This AI chip is tailored for edge computing contexts, proving itself ideal for applications like AR/VR, wearable technology, and smart home setups. With the TSP1, users can expect quick AI inference times, around 20 milliseconds, while maintaining secure on-chip storage and offering interfaces for multi-sensor inputs. The powerful combination of state-space networks and custom-tailored hardware optimization ensures the TSP1 leads in both scalability for large AI models and energy-aware performance for various sectors, including IoT and industrial applications.
SEMIFIVE’s AIoT Platform targets smart environmental ecosystems, offering convergence of AI capabilities with IoT frameworks. This platform enhances connectivity and intelligence in next-generation smart devices and facilities, integrating edge computing and AI capabilities to enable intelligent data processing and real-time action. The AIoT platform is equipped with multi-core processing capabilities, providing energy-efficient solutions suited for edge environments. This facilitates distributed AI computations right where data is generated, significantly improving response times and reducing backhaul costs compared to traditional centralized models. Designed to support a wide range of devices and systems, the platform allows developers to build solutions that are scalable and adaptable to various IoT applications. It provides comprehensive hardware-software co-design solutions, simplifying the development process for applications like smart homes, industrial IoT systems, and intelligent transportation networks.
ARC Processor IP from Synopsys is engineered to deliver high performance and superior energy efficiency for embedded applications. It comprises a customizable architecture, allowing developers to tailor it for specific application needs while maintaining low power consumption. Ideal for IoT, automotive, and high-performance computing applications, this processor IP emphasizes scalability and flexibility, enabling the creation of sophisticated system designs tailored to unique industry requirements.
AresCORE UCIe Die-to-Die PHY is a tailored solution for die-to-die interconnects, designed to simplify the link between chiplets within a complex system. It addresses the critical demand for reliable, high-bandwidth communication channels in multi-die packages, facilitating scalable system architectures. Capable of supporting wide bandwidth requirements, AresCORE enhances performance with minimized power consumption, essential in preventing bottlenecks in data-intensive applications. This PHY is engineered to seamlessly integrate into modern SoC designs, offering flexibility and enhanced operational efficiency. The robust architecture and comprehensive testing capabilities of AresCORE ensure data integrity and compatibility with future technological advancements. Its adaptability to various implementation scenarios makes it a suitable choice for next-generation computing technologies.
The iniDSP core is a powerful 16-bit digital signal processor designed for enhancing signal processing tasks effectively. It is particularly suited for applications demanding intensive arithmetic processing such as audio processing, telecommunications, and radar systems. By offering flexible design integration and high-performance capabilities, iniDSP manages complex calculations with impressive efficiency. The processor's architecture is constructed to support and simplify the implementation of complex signal algorithms, enabling seamless integration into a range of electronic systems. With its proven application across various sectors, iniDSP provides a robust solution for engineers aiming to optimize digital signal processing.
TimbreAI T3 addresses audio processing needs by embedding AI in sound-based applications, particularly suitable for power-constrained devices like wireless headsets. It's engineered for exceptional power efficiency, requiring less than 300 µW to operate while maintaining a performance capacity of 3.2 GOPS. This AI inference engine simplifies deployment by never necessitating changes to existing trained models, thus preserving accuracy and efficiency. The TimbreAI T3's architecture ensures that it handles noise reduction seamlessly, offering core audio neural network support. This capability is complemented by its flexible software stack, further reinforcing its strength as a low-power, high-functionality solution for state-of-the-art audio applications.
The TimeServoPTP is an advanced system timer designed for FPGAs that enhances the capabilities laid out by the standard TimeServo, incorporating an IEEE 1588v2 PTP compliant ordinary clock implementation directly into the FPGA hardware. This solution enables both 1-step and 2-step synchronization with external network time masters, facilitating precise timekeeping with minimal drift. This single-component solution operates independently, providing accurate synchronized time across different network applications. It supports a variety of output configurations, adapted for unique user requirements, each capable of outputting a distinct pulse per second at designated times according to user-supplied clocks. Operating with atomic resolution, the TimeServoPTP is equipped with sophisticated logical controls and a Gardner Type-2 Digital Phase Locked Loop, making it ideal for distributed systems where precise timekeeping is essential. Designed with high compatibility, it functions across leading FPGA devices from Intel and Xilinx, ensuring wide feasibile deployment across technological environments.
ARDSoC is a pioneering embedded DPDK solution tailored for ARM-based SoCs, specifically engineered to enhance ARM processor performance by bypassing the traditional Linux network stack. This solution brings the efficiencies of DPDK, traditionally reserved for datacenter environments, into the embedded and MPSoC sphere, extending DPDK functionalities to a broader range of applications. The architecture of ARDSoC allows users to minimize power consumption, decrease latency, and reduce the total cost of ownership compared to conventional x86 solutions. This IP product facilitates packet processing applications and supports various technologies such as VPP, Docker, and Kubernetes, ensuring hardware-accelerated embedded network processing. Designed for integration across Xilinx Platforms, ARDSoC also offers high flexibility with the ability to run existing DPDK programs with minimal modification. It is optimized for performance on ARM A53 and A72 processors, ensuring that data structures are efficiently produced and consumed in hardware, thereby providing robust and reliable network data handling capabilities.
SINR is designed to effectively minimize background noise, ensuring that the main audio content is both clear and intelligible. It operates efficiently by focusing on reducing unwanted noise, thus improving the user's overall listening experience. This feature is especially vital in settings where clear communication is essential, and noise pollution needs to be significantly reduced.
VoxBoost is engineered to enhance speech clarity within an audio mix, elevating the prominence of spoken words against background sounds. This technology is particularly beneficial in noisy environments where distinguishing speech is critical, such as in public address systems or portable devices used in crowded settings.
VocalFusion, developed by XMOS, is a cutting-edge voice capture and processing solution designed for superior performance in far-field voice applications. This platform is acclaimed for its ability to offer crystal clear voice command accuracy, even in challenging acoustic environments. By integrating high-performance processing technology, VocalFusion sets a new standard in voice interface solutions, making it a preferred choice for smart home devices, automotive systems, and unified communication tools. One of the standout features of VocalFusion is its sophisticated audio algorithms that ensure seamless voice capture by minimizing noise and interference. These capabilities allow the platform to facilitate high-accuracy voice assistant interactions, thus enhancing the consumer experience by providing reliable, low-latency response times. The adaptability of VocalFusion's architecture supports various applications, from consumer electronics to professional conferencing systems. The integration of VocalFusion into devices enables manufacturers to offer advanced voice control functionalities, expanding the usability and interactive features of their products. Additionally, XMOS provides comprehensive support and tools for developers, ensuring that products featuring VocalFusion benefit from expedited time-to-market. Its robust performance and expansion capabilities position VocalFusion as a key player in the market for voice-controlled technologies.
The RV32EC_P2 processor core by IQonIC Works is a compact RISC-V processor designed for low-power embedded applications. It features a two-stage pipeline architecture ideal for running trusted firmware and offers a base RV32E instruction set. To enhance efficiency, the core supports RVC compressed instructions for reduced code sizes and optionally includes integer multiplication and division functionalities through the 'M' standard extension. Additionally, it accommodates custom instruction set extensions for tasks such as DSP operations, making it versatile for numerous applications. Designed for ASIC and FPGA implementations, the core provides interfaces like AHB-Lite or APB for memory and I/O operations, ensuring comprehensive system integration. Key features include a simple privileged architecture for machine-mode operations and clock gating for reduced power consumption during idle states. Furthermore, the core supports vectorized interrupts, enabling fast responses to system signals. The RV32EC_P2 is backed by a full suite of development and simulation tools, including synthesis scripts and firmware development environments based on the GNU tool chain. The Virtual Lab (VLAB) system-level tools offer enhanced support for developing and testing applications in a virtual context, ensuring a seamless development experience from conception to deployment.
The Akida1000 Reference SoC exemplifies BrainChip's commitment to delivering optimized on-device AI solutions. This system on chip (SoC) integrates the core attributes of Akida neuromorphic technology, offering a comprehensive platform for developing and testing new AI applications. The reference SoC includes a digital AI processor core that is fine-tuned to handle sparse data inputs effectively, leveraging specialized neural processing techniques to maintain low power consumption. This reference system supports developers in streamlining the transition from conceptual AI models to real-world applications. It provides essential development tools and pre-trained models that can be easily adapted or expanded to fit specific project requirements. These tools enable an efficient creation process for AI solutions that demand high-speed processing and low-latency responses. Ideal for a wide array of implementations, from smart appliances to complex industrial sensors, the Akida1000 Reference SoC ensures robust AI capabilities while giving engineers the tools needed to push the limits of current technology. By focusing on ultra-low power consumption and heightened processing efficiency, this solution is particularly suited for applications where energy efficiency is a critical factor.
AONDenoise offers groundbreaking single-microphone AI-driven denoising technology that brings clarity to audio experiences. Through the use of advanced AI algorithms, this solution is tailored to significantly minimize background noise with minimal latency, under 1 ms. Utilizing around 50K parameters, this edge AI technology is compact yet powerful, providing noise reduction presets for various environments such as babble, wind, and keyboard uses. The denoiser can isolate desired audio input in diverse settings, vastly enhancing auditory clarity for users in even the most challenging environments like concerts or city streets. AONDenoise's software suite allows for extensive user customization, permitting specific adjustments while ensuring audio quality is preserved. Its ability to discern distinct noises accurately demonstrates its capability for applications demanding precise noise management.
The ULYSS MCU is a cutting-edge microcontroller crafted for advanced automotive applications, reflecting Cortus' commitment to innovation in the automotive technology space. With its foundation in RISC-V architecture, the ULYSS MCU offers a powerful range of features suitable for the rigorous demands of modern vehicles. This 32/64-bit MCU is engineered to operate at clock speeds ranging from 120MHz up to 2GHz, ensuring robust performance for automotive systems requiring highly responsive and reliable operation. The ULYSS MCU is adept at managing a variety of automotive functions, from basic operational controls to advanced driver-assistance systems (ADAS), positioning it as a future-ready solution for automotive technology evolution. Its capacity for real-time processing and data analysis is instrumental in achieving safety and efficiency enhancements in vehicle operations, enhancing the overall driving experience. In addition to its technical prowess, the ULYSS MCU is designed to accommodate cost-effectiveness alongside its performance benefits, making it an attractive option for automotive manufacturers seeking to integrate advanced technology without compromising on budget constraints. This harmonization of performance and affordability is key to its appeal across the automotive sector.
Designed specifically for the nuanced requirements of AI on-chip applications, the Calibrator for AI-on-Chips fine-tunes AI models to enhance their performance on specific hardware. This calibration tool adjusts the models for optimal execution, ensuring that chip resources are maximized for efficiency and speed. The Calibrator addresses challenges related to power usage and latency, providing tailored adjustments that fine-tune these parameters according to the hardware's unique characteristics. This approach ensures that AI models can be reliably deployed in environments with limited resources or specific operational constraints. Furthermore, the tool offers automated calibration processes to streamline customization tasks, reducing time-to-market and ensuring that AI models maintain high levels of accuracy and capability even as they undergo optimization for different chip architectures. Skymizer's Calibrator for AI-on-Chips is an essential component for developers and engineers looking to deploy AI solutions that require fine-grained control over model performance and resource management, thus securing the best possible outcomes from AI deployments.
Application Specific Instruction-set Processors (ASIPs) from Wasiela are customized processors optimized for specific application needs, providing efficient computational power for modern digital solutions. These processors are designed to excel in tasks requiring significant processing strength coupled with low power consumption, making them ideal for use in embedded systems and consumer electronics where power efficiency is crucial. Wasiela’s ASIPs feature a configurable architecture, allowing for customization that matches specific application requirements. This adaptability not only enhances performance by minimizing unnecessary computational operations but also extends the battery life of devices through efficient power usage. The ASIPs architecture supports diverse applications, offering enhanced performance for signals processing, encryption, and other specialized tasks. Their design framework facilitates easy integration into complex systems, providing developers a robust foundation upon which to build high-performance, custom solutions for ever-evolving technological demands.
The Think AI Inference Engines by MIPS bring cutting-edge AI processing capabilities to the edge, designed to support multi-modal physical AI applications. These engines facilitate a vast array of AI inference models, supporting both open-source and proprietary platforms. They provide scalable AI computing prowess extending from tens to thousands of Tera-Operations Per Second (TOPS) at optimal energy efficiency. Through their programmable and scalable nature, these engines enable tailor-made solutions for bespoke AI applications, fostering innovation in sectors like industrial automation and autonomous vehicles.
The Akeana 1000 Series is a versatile line of 64-bit RISC-V processors, offering significant configurability for data-intensive and high-performance applications. This midrange series provides support for multi-threading and both in-order and out-of-order microarchitectures, tailored to various industry needs from smart devices to automotive systems. Its comprehensive feature set allows for efficient operation with rich operating systems, such as Linux or Android, providing reliable computing power in diverse environments. With capabilities for scalable processing via a configurable issue width, the Akeana 1000 Series is ideal for edge AI, industrial automation, and advanced automotive applications, where high throughput and precision are crucial. Its architecture allows for flexible configuration of pipeline stages and memory management units, ensuring compatibility with a wide range of computation demands. This processor line offers built-in ECC support, ensuring data integrity in complex computational environments. The series' adaptability is further reinforced by support for physical memory protection, vector extensions, and hypervising capabilities, making it a comprehensive choice for mid-tier processing needs in modern technological ecosystems.
The Akida1000 embodies BrainChip’s vision of harnessing cutting-edge neuromorphic technology for modern AI applications. As a reference platform, it is tightly integrated with BrainChip’s proprietary AI models and neural processors, offering developers a versatile base for creating and deploying AI solutions that operate efficiently at the edge. Equipped with advanced neural processing capabilities, the Akida1000 is adept at handling a wide variety of task-specific AI computations, including object detection, data sorting, and real-time analysis. Its architecture is optimized for power efficiency, making it an ideal solution for applications where energy constraints are a critical consideration. The Akida1000 supports BrainChip's goals of minimizing latency and maximizing throughput in AI operations. Its robust toolchain is designed to streamline AI development workflows, facilitating rapid prototyping and deployment of sophisticated AI models. This platform empowers developers to create impactful solutions across sectors ranging from consumer electronics to industrial automation.
ChipCraft's GNSS Receiver addresses a diverse set of positioning requirements by integrating advanced technologies in satellite navigation. This GNSS core is a powerhouse of precision and efficiency, offering solutions with robust performance capabilities for a multitude of applications, including IoT devices and autonomous vehicles. Engineered for reliability, the GNSS Receiver delivers rapid time-to-first-fix, even in challenging environments, enhancing its suitability for ground-breaking navigation solutions. Its compatibility with multiple GNSS constellations ensures users receive an uninterrupted stream of precise location data. The scalable design of the GNSS Receiver supports integration with other systems, such as RISC-V processors, to optimize functionality across various platforms. It is primed for tasks needing high accuracy and dependability, such as mapping, surveying, and smart city infrastructure monitoring. By leveraging ChipCraft's silicon-proven IP, this GNSS Receiver offers a reliable, comprehensive solution with reduced power consumption and significant space savings, demonstrating ChipCraft's dedication to advancing GNSS technology into new industry standards.
Designed for nuanced audio processing, the AAC-LC and HE-AAC Audio Decoder serves a pivotal role in real-time decoding of audio streams, supporting the MPEG AAC format comprehensively. This decoder is finely tuned for deployments on both FPGA and ASIC platforms, offering flexibility and elegance in handling varied audio applications. Incorporating Coreworks' sophisticated Multimedia Platform, this audio decoder is built to manage multiple audio channels efficiently, ensuring high-quality output across diverse configurations. Such meticulous engineering ensures audio integrity is preserved while optimizing system power and area performance. The AAC-LC and HE-AAC Audio Decoder is devised to handle upgradable implementations, allowing for post-deployment enhancements that adapt to changing application dynamics. This adaptability ensures that Coreworks' decoder remains a competitive and innovative option for professional audio processing needs.
The updated version of Cortus' Lotus 1 microcontroller continues to deliver exceptional performance across various consumer electronics applications. Designed to offer a compelling balance of ultra-low power consumption and high functionality, this microcontroller is well-suited for products ranging from home appliances to sophisticated electronic systems. This multi-purpose microcontroller is built upon a RISC-V architecture, providing a robust platform for developing diverse consumer electronics. Its compact design is engineered to integrate seamlessly with peripherals, allowing manufacturers to enhance their products with features that meet specific consumer needs without sacrificing energy efficiency. Lotus 1's adaptability makes it perfect for applications needing frequent updates and maintenance, providing flexibility for long-term technological strategies. Through its thoughtful design, the microcontroller supports a wide range of functionalities, ensuring it can meet the ever-changing demands of the consumer electronics market efficiently and reliably.
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