All IPs > Multimedia > ADPCM
Adaptive Differential Pulse Code Modulation (ADPCM) is a ubiquitous technology in the multimedia industry that enhances audio signal processing. At Silicon Hub, our catalog of ADPCM semiconductor IPs offers cutting-edge solutions tailored to improve your multimedia applications. ADPCM is particularly renowned for its ability to compress and encode audio data efficiently, enabling high-quality sound reproduction while minimizing data size. This makes it an ideal choice for embedded systems, communication devices, and other audio-centric products.
Semiconductor IPs in the ADPCM category provide developers with the tools necessary to integrate advanced audio data compression capabilities directly into their hardware designs. By leveraging these IPs, engineers can streamline the design process, reduce complexity, and ensure that their devices deliver optimal performance in data-constrained environments. Whether you are developing mobile phones, voice recorders, or VoIP systems, ADPCM IP cores are essential in maintaining audio integrity without burdening the system's bandwidth.
Our ADPCM IPs cater to a wide spectrum of multimedia products, offering scalable solutions that support different sampling rates and bit-widths to accommodate various audio requirements. They are designed for seamless integration into both consumer electronics and professional audio equipment, ensuring compatibility with existing protocols and systems. Moreover, the use of ADPCM technology aids in power conservation, making it suitable for portable devices that demand long battery life.
Explore our diverse portfolio of ADPCM semiconductor IPs to find components that not only meet your technical specifications but also elevate the auditory experience of your end users. Whether your focus is on research and development or ready-for-market products, Silicon Hub's ADPCM solutions deliver the efficiency and sound fidelity crucial for today's competitive landscape in the multimedia field.
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 KL630 is a pioneering AI chipset featuring Kneron's latest NPU architecture, which is the first to support Int4 precision and transformer networks. This cutting-edge design ensures exceptional compute efficiency with minimal energy consumption, making it ideal for a wide array of applications. With an ARM Cortex A5 CPU at its core, the KL630 excels in computation while maintaining low energy expenditure. This SOC is designed to handle both high and low light conditions optimally and is perfectly suited for use in diverse edge AI devices, from security systems to expansive city and automotive networks.
The AX45MP is engineered as a high-performance processor that supports multicore architecture and advanced data processing capabilities, particularly suitable for applications requiring extensive computational efficiency. Powered by the AndesCore processor line, it capitalizes on a multicore symmetric multiprocessing framework, integrating up to eight cores with robust L2 cache management. The AX45MP incorporates advanced features such as vector processing capabilities and support for MemBoost technology to maximize data throughput. It caters to high-demand applications including machine learning, digital signal processing, and complex algorithmic computations, ensuring data coherence and efficient power usage.
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.
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 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 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.
Tachyum's Prodigy Universal Processor marks a significant milestone as it combines the functionalities of Central Processing Units (CPUs), General-Purpose Graphics Processing Units (GPGPUs), and Tensor Processing Units (TPUs) into a single cohesive architecture. This groundbreaking design is tailored to meet the escalating demands of artificial intelligence, high-performance computing, and hyperscale data centers by offering unparalleled performance, energy efficiency, and high utilization rates. The Prodigy processor not only tackles common data center challenges like elevated power consumption and stagnating processor performance but also offers a robust solution to enhance server utilization and reduce the carbon footprint of massive computational installations. Notably, it thrives on a simplified programming model grounded in coherent multiprocessor architecture, thereby enabling seamless execution of an array of AI disciplines like Explainable AI, Bio AI, and deep machine learning within a single hardware platform.
OneNav presents the innovative L5-direct GNSS Receiver, a specialized component drawing focus to accuracy and reliability by operating independently of the L1 signal. Leveraging L5 Band signals, this receiver captures and maintains precise location data while ensuring protection against signal jamming. Incorporating a single RF chain, the system reduces redundancy and facilitates optimal antenna placement to enhance device designs in space-restricted environments. This approach critically lowers system costs while delivering robust, reliable location tracking ideal for wearables and IoT applications. The L5-direct receiver integrates seamlessly across multiple satellite constellations like GPS, Galileo, QZSS, and BeiDou, delivering accurate data regardless of environmental constraints. Its refinement in multipath error reduction through machine learning ensures the most precise data acquisition, even in dense urban landscapes. Enhanced with Application Specific Array Processor, the receiver accelerates signal acquisition without sacrificing time or power, ensuring reliable operation wherever used. Additionally, L5-direct GNSS stands out by optimizing power usage, with solutions designed specifically for extended battery life in ultra-low-power devices. Its adaptability allows for integration into diverse systems, serving industries with requirements across different geographies or use cases—from standalone GNSS ASICs to flexible modems and application processors. Featuring silicon-proven capabilities, such as a hot start fix in under one second and open-sky accuracy within 1.5 meters, L5-direct GNSS leads the way for next-generation technology in critical mission deployments.
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 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.
The D/AVE 2D is a dynamic graphics processing unit designed to efficiently handle two-dimensional graphic rendering. It provides a robust platform for rendering complex graphics in embedded systems with limited resources, making it a perfect choice for consumer electronics, automotive displays, and industrial monitoring systems. Its architecture enables fast image processing and supports features like anti-aliasing and alpha blending to deliver high-quality visual outputs. The D/AVE 2D utilizes efficient hardware acceleration to reduce the load on the main processor, allowing for smoother graphics operation and faster refresh rates. Its integration is enhanced with straightforward software tools, enabling easy adaptation to various operating systems and hardware configurations. Notably, the D/AVE 2D is scalable and adaptable, providing a flexible solution for applications needing robust graphic capabilities. This GPU not only improves graphic performance but also enhances energy efficiency, providing a balance of performance and power consumption ideal for embedded applications. Its support for various display formats and interfaces makes it versatile and ready for deployment in a multitude of systems, ensuring it meets the diverse needs of today's demanding graphic applications.
The JPEG XS Encoder/Decoder is designed to provide visually lossless compression with ultra-low latency. This makes it an ideal fit for next-generation applications in 5G environments, large screens, and high-quality video processing. The encoder/decoder couples high efficiency with minimal data delay, maintaining superior image quality while enabling real-time data transfer essential for live broadcasting and professional media dealings.
The IPMX Core is a cutting-edge solution for leveraging the latest AV-over-IP standards within professional AV systems. By adopting the open specification IPMX protocol, Nextera Video enables seamless communication over IP networks, transforming the efficiency of media transport globally. Its foundation on proven standards like SMPTE ST 2110 and NMOS enhances its interoperability and scalability. Designed for versatile video and audio integration, the IPMX Core supports both compressed and uncompressed media, providing flexibility across a spectrum of resolutions up to 8K. This adaptability caters to diverse media landscapes, accommodating different frame rates, color spaces, and sample rates, while maintaining low latency and high-quality delivery. Nextera’s IPMX Core stands at the forefront of AV-over-IP technology, offering essential features like encrypted data transport, asynchronous video support, and industry-standard NMOS control. This makes it a formidable choice for any organization seeking to future-proof its AV infrastructure through robust IP technologies that meet rigorous professional standards.
Cologne Chip’s C3-CODEC-G712-4 is an advanced audio codec IP core that forms part of the renowned DIGICC-based ASIC IP lineup. This codec is tailored for efficient audio signal processing and supports a variety of telecommunication applications. What distinguishes the C3-CODEC-G712-4 is its ability to deliver high-fidelity audio through a fully digital approach, which streamlines the integration into various digital platforms, eliminating the complexity associated with analog audio signal management. Designed for robust performance, this codec ensures minimal latency and high efficiency in audio compression and decompression, making it an ideal choice for real-time communication systems. Its compact design and digital architecture allow for seamless compatibility with modern telecommunication infrastructure, providing users with excellent signal clarity without a significant resource footprint. Furthermore, Cologne Chip supports the C3-CODEC-G712-4 with extensive documentation and integration tools, easing its adoption into new and existing systems. This codec plays a critical role in enhancing the audio quality of communication systems while maintaining cost-effectiveness, thanks to the reduced need for external analog components and converters traditionally required in audio processing.
The GateMate FPGA by Cologne Chip is a standout in the field of programmable logic, designed to deliver powerful performance at an affordable cost. This FPGA offers an ideal platform for a wide range of applications, driven by its highly customizable nature. Targeted at both newcomers and experienced engineers, the GateMate FPGA offers extensive integration capabilities with various applications and intellectual properties. A key highlight is its support for real-time data flow monitoring and streamlined debugging processes, made possible through features like an integrated logic analyzer. The GateMate FPGA is well supported by a robust set of development tools, including daily updated toolchains and evaluation board kits. These resources make it easier for developers to get started and enhance their design capabilities with minimal setup time. The flexibility and effectiveness of the GateMate FPGA are further demonstrated through its compatibility with the LiteX framework, allowing the creation of comprehensive FPGA-based systems. Integration with display and camera interfaces is streamlined with the GateMate FPGA's available GPIO connections, reducing the need for additional hardware. This supports a wide array of applications, from digital displays to sensor inputs, cementing the GateMate FPGA's position as a versatile tool in digital design and implementation.
The VIDIO 12G SDI FMC Daughter Card is an advanced development tool targeted at professionals aiming to harness the latest capabilities in broadcast video technology. This versatile card supports resolutions up to 4Kp60 and integrates seamlessly with a variety of AMD/Xilinx and Intel/Altera development boards, making it indispensable for high-performance video applications. Designed with scalability in mind, VIDIO addresses the need for multiple SDI and IP interfaces, operating at high data rates including 12G SDI. Its build quality, featuring top-notch components from Texas Instruments and robust connectors, ensures reliable performance even under demanding conditions. Moreover, the card's compatibility with various hardware platforms allows developers to engage with both SDI and Ethernet seamlessly, facilitating designs in applications such as IP Gateways, Format Converters, and Signal Extenders. A highlight of this product is its plug-and-play functionality, with no necessary software installation to get started, thus simplifying the development process. This card is key for field testing and proof-of-concept projects, with Intel selecting it for its reference designs. As a robust tool for video solutions development, the VIDIO SDI FMC Daughter Card stands out as a leading choice for engineers and developers alike.
The M3000 Graphics Processor is engineered to deliver exceptional 3D rendering capabilities, supporting intricate graphics applications. It aligns with the latest architectural standards to ensure high performance in gaming and simulation environments, offering dynamic visual processing. This processor leverages parallel processing core designs to manage heavy computational loads efficiently, ensuring smooth and detailed graphic outputs. The M3000 is ideal for integration in devices that demand high frame rates and superior graphics quality.
Badge 2D Graphics offers an advanced solution for 2D graphical displays, suitable for systems requiring comprehensive graphical representations. These graphics are developed for seamless integration into platforms such as Xilinx, showcasing exceptional versatility and reliability with more than 5 million units shipped. The product is highly adaptable, enabling varied graphical tasks and delivering consistent performance across applications. This graphics solution is engineered to support a multitude of functionalities, including video display, textual representation, and multimedia interfacing. It stands out in delivering high-performance visual processing, making it a preferred choice for systems where graphical display quality is essential. Designed with the flexibility to adapt to a variety of multimedia needs, Badge 2D Graphics ensures that visual representation in platforms is both vivid and contextually relevant. The robustness of this solution allows it to integrate smoothly with diverse operational architectures, enhancing the visual display capabilities of embedded systems and consumer products.
The INAP375R Receiver is a component of the APIX2 technology suite, tailored to meet the stringent demands of automotive infotainment systems. It supports bi-directional, high-speed data transfer over a single twisted pair cable, up to distances of 12 meters, offering flexibility for complex vehicle architectures. The receiver integrates advanced error correction protocols and supports RGB and LVDS video interfaces, making it ideal for high-definition display applications in vehicles.
The v-MP6000UDX is a versatile visual processing unit designed to power deep learning, computer vision, and video coding needs all through a single, unified architecture. This processor excels at handling high-performance tasks on embedded systems, ensuring efficiency in both power and silicon area utilization. As industries seek to integrate more sophisticated AI-driven capabilities, the v-MP6000UDX stands out by providing a comprehensive solution that runs all forms of embedded computing tasks seamlessly. A significant advantage of the v-MP6000UDX is its ability to manage complex neural networks in real-time, boasting a dynamically programmable nature that surpasses hardwired counterparts in flexibility and longevity. It facilitates the concurrent execution of various computational workflows such as signal and image processing without the traditional need for multiple hardware units, thereby reducing overall system complexity and enhancing power efficiency. The processor's architecture is particularly noteworthy for its scalability, supporting configurations from a minimal core count to over a thousand cores on a single chip. This makes the v-MP6000UDX adaptable for a wide spectrum of applications ranging from low-powered sensors to high-performance computing setups. Its support for multiple software environments and AI frameworks adds an extra layer of versatility, allowing developers to optimize and deploy a broad variety of deep learning models efficiently.
The High Performance FPGA PCIe Accelerator Card by Korusys integrates Intel's Arria 10 1150 GX FPGA, elevating computational power and efficiency. It offers a high throughput PCIe 3.0 (x8) host interface and supports bi-directional Quad 3G SDI, up to 4k UHD video handling, and GenLock over SDI. With dual DDR3 banks, this card ensures superior memory performance and is adaptable to various high-end applications. Suitable for standalone use or bundled with Korusys' IPr products, it meets the demands of advanced signal processing tasks and complex computations in a professional setting.
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 ant200 Vector Graphics Processor excels in 2D graphics rendering by providing high performance in compact devices. It strips down unnecessary functions to optimize for size and cost-efficiency, making it ideal for IoT products and mobile applications. This processor eliminates unnecessary features while upholding essential graphics processing tasks, ensuring that the final product remains both effective and economical. It fits seamlessly into low-power applications, delivering reliable graphics processing in resource-constrained environments.
This product serves as a bridge for high-definition audio and video signals, converting them from DisplayPort to MIPI-DSI interfaces. It is ideally suited for integrating into the next generation of mobile devices and VR headsets, requiring efficient and low-latency signal processing. The integration enables these devices to deliver ultra-clear, crisp visuals coupled with high-quality sound, essential for immersive experiences. The converter's ability to handle multiple lanes of data transmission ensures that all connected devices can maintain high performance without compromising quality. It supports a variety of screen resolutions, making it highly versatile for cutting-edge display technologies. This flexibility solidifies its position as a vital component in high-end consumer electronics and mobile hardware. Moreover, the efficiency of this conversion technology translates into longer battery life for portable devices. By optimizing the power usage during signal conversion, it contributes to the device's overall energy efficiency, providing users with extended use without frequent recharging.
Designed for applications where power efficiency and low latency are critical, the H.264 Low Power and Low Latency Hardware Video Decoder stands out by implementing baseline Profile decoding up to Level 4.1 for full HD content. Emphasizing error resilience capabilities, such as Flexible Macroblock Ordering and Arbitrary Slice Ordering, makes it robust for unpredictable networks often encountered in industrial and consumer electronics. The underlying hardware architecture, compatible with either FPGA or ASIC, supports versatile integrations, ensuring cross-platform functionality. Featuring low power designs targeted at mobile applications, the decoder becomes a preferred choice in environments like digital signage, remote surveillance, and in-flight entertainment systems.
intoPIX's JPEG 2000 codec delivers premium image quality for digital video over IP networks with advanced compression capabilities. Widely recognized for its ability to handle high bit depths and resolutions, the JPEG 2000 codec is a staple in media productions that require high visual fidelity. It offers extensive feature support for different chroma subsampling schemes and bit rates, facilitating excellence in broadcast and cinema applications. As a cornerstone technology in intoPIX's offerings, the JPEG 2000 codec emphasizes minimal latency alongside high throughput levels, making it suitable for live production and post-production environments. It is equipped to handle visually lossless compression, ensuring that the subtle nuances of high-quality video are maintained for the end viewer. This codec supports various profiles, making it highly adaptable for different video settings, and provides robust error resilience ensuring seamless streaming even in network variability situations. Its powerful processing capabilities make it ideal for sectors where image integrity is paramount, such as digital cinema and HD broadcasting.
This cutting-edge video decoder by Atria Logic focuses on delivering high-quality Ultra High Definition (UHD) content with low latency. The H.264 UHD Hi422 Intra Video Decoder is engineered to support the Hi422 profile at level 5.1, permitting intricate color detailing through its 10-bit YUV 4:2:2 format. Designed for real-time applications, it is particularly beneficial for medical imaging, broadcast, and industrial scenarios requiring crisp and precise video playback. With an architecture that minimizes latency to sub-frame levels, this decoder ensures consistent performance, crucial for mission-critical applications. Integrated with an efficient resource utilization model, the decoder facilitates a smooth video experience on platforms such as the Xilinx Zynq-7000, making it versatile across FPGA and ASIC integrations.
The K3000 Vector Graphics Processor is tailored for delivering top-notch 2D graphics performance, particularly focusing on embedded devices. It supports APIs like OpenVG1.1, providing smooth and seamless 2D vector graphics rendering across various platforms. This processor is known for its high power efficiency and reduced footprint, making it suitable for portable devices and embedded systems. With robust compatibility for interfacing with digital displays, the K3000 is an optimal choice for UI-driven applications where power and performance are key.
The ant100 Mobile GPU focuses on providing efficient graphics processing capabilities for mobile devices. This GPU is designed to execute graphic rendering tasks with high efficiency, ensuring smooth performance in portable and energy-sensitive applications. Its architecture supports complex graphical functions while maintaining a low power profile, making it an excellent fit for smartphones, tablets, and other mobile electronics where extended battery life and reduced heat output are critical. With this GPU, users can experience superior graphics without compromising on device portability.
The INAP375T Transmitter is a high-speed data transmission solution specifically designed for the automotive industry. It employs the second generation APIX2 technology, which delivers high-speed differential data through a single twisted pair cable, supporting data rates up to 3Gbps. This transmitter can handle complex multimedia data like video and audio while maintaining robust error correction through the AShell protocol, ensuring reliable data communication within vehicles.
The H.264 Software Video Encoder is a versatile encoder designed for a range of industrial embedded and consumer application scenarios. Optimized for low power consumption, it supports the H.264 Baseline Profile, enabling high-quality video encoding with options for both variable and constant bit rates. This encoder is suitable for applications such as surveillance systems, portable video recorders, and more, offering flexibility across netbooks, tablets, and smartphones. It’s implemented to take full advantage of ARM architectures, ensuring compatibility and performance across various systems, providing high visual quality and reliability.
Aimed at providing high-quality video encoding with minimal latency, the H.264 UHD Hi422 Intra Video Encoder surpasses industrial standards by supporting 4K video encoding suited for multiple high-demand applications. Its design excellence lies in handling 10-bit YUV 4:2:2 content seamlessly, ensuring sharp color contrasts and reducing gradient banding, making it ideal for medical, broadcast, and enterprise use. The encoder excels in maintaining low latency, meeting crucial performance needs in dynamic environments such as live news broadcasting and real-time video streaming. Utilizing the Xilinx Zynq-7000 architecture allows for reduced resource consumption while ensuring top-tier video quality and efficient IP streaming.
This MPEG-2 Software Video Encoder by Atria Logic is tailored for low power and portable device environments, focusing on MPEG-2 main profile video encoding. It's ideal for applications that include video recorders and other embedded solutions like medical imaging systems. Comprehensive compliance with the MPEG-2 standard ensures high-quality video encoding across multiple platforms, supported by ARM processors. Optimized for industrial applications, the flexibility provided by the software enables its use across various operating systems like Linux and Windows, serving a broad spectrum of use cases, including blackbox recording systems.
Atria Logic’s H.264 Streaming Video Decoder Reference Design offers a comprehensive solution for decoding video streams in industrial and consumer settings. The design is a culmination of multiple integrated IP blocks, making it ideal for environments like digital signage, in-flight entertainment, and more. It offers support for Ethernet and TS-over-IP inputs, with its sophisticated architecture leveraging Altera Cyclone-III FPGA technologies for efficient streaming functionalities. The high integration level ensures a low footprint, targeting low power consumption without sacrificing performance. This decoder not only supports multiple formats but also caters to the need for remote monitoring and infotainment systems with its flexible architecture.
This 12-bit SAR ADC addresses the need for high-speed and high-resolution conversion in portable devices. Optimized for rapid signal processing at 180 megasamples per second, it suits applications where speed and accuracy are critical, such as in dynamic environments like portable medical equipment and wearables. Utilizing the UMC28nm process technology, this ADC emphasizes low power consumption, extending device battery and operational times without compromising signal integrity. Its adaptability extends to various portable device needs, ensuring reliability and efficiency in fast-paced and mobile landscapes.
In-memory computing represents a transformative approach to computation, integrating processing capabilities directly within memory circuits. This advancement streamlines data processing by eliminating the traditional need to shuttle data back and forth between memory and CPUs, resulting in faster operations and reduced energy consumption. By computing within memory, latency is drastically decreased, creating an ideal solution for applications requiring swift data processing capabilities. This design benefits AI applications, including deep learning, by significantly accelerating data-intensive operations while preserving energy efficiency. This revolutionary approach is particularly advantageous for devices with constraints on power and performance. DXCorr's in-memory compute technology is a leap forward for efficient and effective computing, setting a standard for modern electronic design geared towards handling big data and AI workloads efficiently.
The logiHDR High Dynamic Range pipeline is crafted to extract maximum detail and clarity from high-contrast scenes, enhancing camera image quality. Supporting UHD video resolutions, including 4K2Kp60, this HDR pipeline is engineered to manage scenes with elements caught in direct light alongside objects in deep shadows. Aimed at maximizing detail extraction, the logiHDR represents the forefront of video processing technology, efficiently handling dynamic ranges to deliver exceptional video quality. It is particularly beneficial in environments where image quality variations can deliver significant benefits, such as in automotive, security, and film applications. By offering a comprehensive solution to manage high dynamic ranges, the logiHDR facilitates superior image quality, bridging the gap between high-definition input and output video. Its processing capabilities enable users to achieve pristine video quality without compromising on performance or speed.
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