All IPs > Multimedia > WMA
The WMA category within our Multimedia section boasts a comprehensive collection of semiconductor IPs designed for superior audio streaming and playback. Short for Windows Media Audio, WMA is an audio format that offers users the ability to enjoy high-quality sound in a compact file size, perfect for modern mobile devices, streaming services, and consumer electronics.
WMA semiconductor IPs are integral to developing advanced multimedia solutions that require efficient audio compression, decompression, and rendering capabilities. These IPs enable designers and developers to integrate robust audio playback functionalities into a variety of consumer electronics, such as smartphones, tablets, portable media players, and home entertainment systems. The IPs in this category facilitate high-performance audio applications, ensuring that devices can deliver a premium listening experience while managing power consumption effectively.
In today’s digitally connected environment, the demand for seamless audio experiences is paramount. By leveraging WMA semiconductor IPs, manufacturers can create devices that support a wide range of audio formats and deliver crystal clear audio to the end-user. These semiconductor IP solutions are engineered to provide exceptional audio quality and reliable performance, ideal for both high-end audio systems and everyday media gadgets.
Moreover, our WMA IPs are optimized for interoperability and ease of integration into existing systems, making them a versatile choice for developers aiming to advance their multimedia offerings. These solutions support a wide array of applications, from streaming audio over wireless networks to enhancing digital broadcasts, providing you with the building blocks necessary for cutting-edge audio products.
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.
Avispado is a 64-bit in-order RISC-V core designed by Semidynamics, focused on offering efficiency for AI edge applications and embedded systems. Its in-order execution model ensures optimal power consumption, making it a prudent choice for energy-constrained environments such as IoT and mobile devices. Equipped with Gazzillion Misses™ technology, Avispado effectively manages memory requests for efficient data handling, crucial for processing real-time data streams in embedded setups. This core supports the RISC-V Vector Specification 1.0, making it an excellent fit for machine learning tasks that require vector processing capabilities. Avispado also features customizable components like branch predictors and configurable instruction/data caches, which can be tailored to fit specific application needs. Its multiprocessor ready design is scalable for systems demanding cache coherence and reliable data access, supporting a wide range of AI and computation-heavy applications.
The Atrevido core from Semidynamics is a 64-bit out-of-order RISC-V processor, engineered for high performance in artificial intelligence and high-performance computing (HPC) environments. Offering extensive customization, it supports 2/3/4-wide design configurations, making it well-suited for handling intricate AI workloads that require significant processing bandwidth. Atrevido is capable of executing multiple operations simultaneously thanks to its Gazzillion Misses™ technology, which can manage up to 128 memory requests concurrently, reducing processing bottlenecks. This core is optimized for applications requiring high data throughput and is compatible with AXI and CHI interfaces, facilitating integration into advanced multiprocessor systems. Additionally, Atrevido comes vector and tensor ready, enabling it to support complex AI tasks, including key-value stores and machine learning. It includes advanced features such as vector extensions and memory interface enhancements, which improve performance in systems that demand robust computational power and flexibility.
The MPEG-H Audio System is an advanced audio codec system designed for television and virtual reality applications. It delivers immersive, high-quality sound that enhances user experiences by providing dynamic and interactive audio environments. This technology is a staple in broadcast and VR industries, known for its ability to offer personalized soundscapes and adjust sound levels and positions in real time. MPEG-H Audio works across various platforms, offering compatibility with modern broadcasting standards, making it a preferred choice for broadcasters seeking to upgrade their audio offerings. Its seamless integration into devices elevates content delivery, supporting the next-generation TV audio standards worldwide and ensuring a comprehensive auditory experience for viewers. Beyond its technical superiority, the MPEG-H Audio System is also recognized for its scalability and adaptiveness in diverse application conditions, ranging from live broadcasts to VR environments. By enabling customizable audio settings, it provides individual listeners with tailored audio experience, making it a cutting-edge tool for content creators focused on maximizing audience engagement through sound.
The UCIe Chiplet Interconnect is an advanced solution facilitating unparalleled communication across chiplets, ensuring efficient system scalability and integration. This interconnect standard supports high data rates ranging from 24Gbps to 32Gbps, making it essential for cutting-edge multi-chip module (MCM) designs and System in Package (SiP) technologies. Designed with flexibility, it bridges various interfaces such as AXI and CHI, providing designers with versatile options for high-throughput interconnection across different silicon pieces. Its architecture supports both die-to-die and chip-to-chip communications, essential for modern heterogeneous applications that require diverse functionalities within a compact system footprint. InnoSilicon’s UCIe solution promotes seamless data exchange and minimizes bottlenecks, improving the efficiency of systems relying heavily on parallel processing and large data transfers. This technology plays a critical role in the rapid prototyping and mass production of high-performance computing systems and AI-powered devices. Supporting current and future process nodes, the UCIe Chiplet Interconnect ensures adaptability and relevance in an evolving semiconductor landscape, contributing to the growing demand for modular and customizable semiconductor infrastructure.
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 MPEG-1/2 - Layer I/II Audio Decoder is expertly designed to address the requirements of real-time audio decoding aligned with MPEG standards. This decoder seamlessly integrates with FPGA and ASIC technologies, offering it as a flexible choice for myriad professional audio applications. Harnessing the capabilities of Coreworks' Multimedia Platform, the decoder demonstrates superior performance across multiple audio streams and configurations, achieving optimal audio quality and synchronization. This core is meticulously crafted to reduce power consumption and silicon footprint while providing comprehensive support for varied use cases. Built with adaptability in mind, the MPEG-1/2 - Layer I/II Audio Decoder can be updated post-deployment, ensuring it maintains effectiveness and meets evolving technological and application standards. This versatility fortifies its suitability as a preferred decoder for sophisticated audio processing.
intoPIX presents the TICO Compact Encoder & Decoder, a versatile and lightweight solution for robust video compression and decompression. Designed to handle a variety of video formats, TICO excels in delivering uncompressed quality at greatly reduced bandwidth without sacrificing image fidelity. It is engineered for minimal latency, making it ideal for live production environments as well as broadcast and cinema applications. The TICO technology offers a revolutionary approach to handling mezzanine compression, allowing for more efficient media workflows across professional settings. It achieves impressive compression ratios while maintaining visually lossless quality. This IP core is not only adaptable but also scalable, suitable for a range of resolutions including HD, 4K, and beyond. Users benefit from TICO's low complexity integration into existing media infrastructures, simplifying the transition to IP-based workflows. Its compatibility with current audio-visual standards makes it a preferred choice for professionals demanding high-performance and reliable video transport solutions in both studio and remote production scenarios.
CSEM's ASICs for the Edge solutions present a crucial innovation in the world of application-specific integrated circuits, particularly designed for edge computing applications. These ASICs are tailored to optimize performance and efficiency at the edge of networks, where data processing locales necessitate compact and powerful solutions. With a focus on smart applications, CSEM's ASICs are engineered to handle processing tasks directly at the edge, minimizing latency and reducing the need for data transfer to centralized systems. This approach enhances the responsiveness and efficiency of IoT devices and other smart applications, providing a significant boost in operational capabilities and user experience. CSEM works closely with industry partners to customize their ASICs for specific needs, allowing for the creation of bespoke solutions that deliver optimal performance. With an emphasis on scalability and integration, CSEM's ASIC offerings are pivotal in advancing edge devices' capabilities, supporting the burgeoning market of connected technologies.
The AAC-LC and HE-AAC Audio Encoder is an advanced solution for the real-time encoding of audio streams, ideal for applications requiring support of the MPEG AAC audio format. This encoder core is optimized for both FPGA and ASIC platforms, ensuring flexibility and efficiency in a variety of system environments. It supports multi-stream operations, allowing for simultaneous encoding of multiple audio channels while maintaining high synchronization and fidelity. The encoding process leverages a powerful combination of hardware and software, utilizing Coreworks' proprietary Multimedia Platform which integrates cutting-edge DSP technologies. The encoder is engineered to deliver exceptional performance across various audio configurations and is capable of handling different channel combinations as required by the application. Designed for robustness, this encoder demonstrates significant advantages in terms of low power consumption and reduced silicon area usage, achieving efficient resource management. The AAC-LC and HE-AAC Audio Encoder not only supports high-fidelity audio processing but also allows for swift adjustments post-deployment, thanks to the adaptability intrinsic to Coreworks' reconfigurable architecture.
The AAC-LC Audio Decoder is a proficient solution for decoding audio streams using the AAC Low Complexity format, compatible with both FPGA and ASIC systems. This decoder is essential for scenarios necessitating the seamless handling of audio data streams without sacrificing quality. Integrated with Coreworks' robust Multimedia Platform, the decoder processes multiple audio streams with precision, ensuring high-quality output while minimizing energy consumption and silicon usage. Such efficiency allows the decoder to meet the stringent demands of contemporary multimedia applications. The capability to make updates post-deployment makes the AAC-LC Audio Decoder a flexible choice, allowing it to adjust to the shifting landscape of audio processing technologies. This adaptability, combined with performance, underscores its relevance and importance in professional audio environments.
The AAC-LC Audio Encoder stands out as a real-time solution for encoding audio using the AAC Low Complexity format, suitable for both FPGA and ASIC environments. This encoder caters to a broad array of applications, especially those needing efficient audio stream management without compromising on sound fidelity. This IP core employs Coreworks' leading-edge Multimedia Platform technology, integrating comprehensive processing capabilities to handle multiple audio streams seamlessly. It supports dynamic configurations, delivering high-quality audio while conserving power and silicon area, thereby offering unparalleled cost efficiency. Adaptable post-deployment, the AAC-LC Audio Encoder can be adjusted as requirements evolve, thanks to Coreworks' reconfigurable platform. The strength of the solution lies in its high performance and lower power usage, making it a prime choice for applications necessitating effective yet efficient audio encoding.
The AAC-LC Stereo Audio Encoder is specifically developed to manage real-time encoding for stereo audio streams, employing the MPEG AAC format for high-quality sound reproduction. It is compatible with both FPGA and ASIC applications, demonstrating versatility and adaptability for various system configurations, particularly where stereo processing is prioritized. Employing Coreworks' acclaimed Multimedia Platform, this encoder is furnished with superior processing capabilities, permitting dynamic encoding across different platform types. The combination of hardware and software functionalities ensures low power consumption and minimized spatial requirements, thereby achieving efficiency and cost-effectiveness. Designed with upgradability in mind, the AAC-LC Stereo Audio Encoder offers significant leeway for post-deployment adjustments. This capacity to refine and enhance audio processing reflects Coreworks' commitment to delivering high-resolution audio solutions that meet and surpass contemporary industry benchmarks.
The MPEG-1/2 - Layer I/II Audio Encoder is crafted for advanced audio stream encoding, accommodating the need for MPEG audio standardization. Positioned for real-time application in diverse environments, this encoder is built to support FPGA and ASIC integrations, presenting it as a versatile choice for professional audio setups. Functioning as a comprehensive encoding solution, this IP core exhibits robust capability in managing multi-stream operations, enabling concurrent encoding with high precision across diverse audio channels. The core's design is aligned with achieving high performance, optimized to minimize energy use and conserve silicon space, thus providing an effective solution in resource-constrained environments. This audio encoder capitalizes on Coreworks' Multimedia Platform, engaging state-of-the-art SideWorks DSP technology to enhance performance and facilitate easy updates and customizations. Such flexibility ensures the encoder's relevance and functionality remain intact, even as application demands evolve.
The MPEG-1/2 + AAC Audio Decoders deliver high-performance decoding solutions for applications demanding compatibility with both MPEG and AAC formats. Crafted for real-time operation, these decoders are ideal for FPGA and ASIC integrations, supporting a wide range of audio environments. Employing the Multimedia Platform from Coreworks, this set of decoders orchestrates efficient multi-channel processing, maintaining audio clarity and synchronization while optimizing power and area usage. This efficiency is crucial in achieving robust audio playback across diverse system architectures. Strategically designed for upgradability, these decoders can undergo enhancements following deployment, ensuring their continuous alignment with evolving requirements and technological advancements. This adaptability, paired with enriching audio experience, cements their position as front-runners in versatile audio processing.
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