All IPs > Multimedia > WMV
The WMV (Windows Media Video) category within the realm of multimedia semiconductor IPs is dedicated to components and solutions that support the encoding, decoding, and processing of WMV video formats. WMV is a widely used video codec developed by Microsoft, designed to offer high quality video streaming and playback. This category is crucial for industries looking to integrate Windows-compatible video functionality into their products, including consumer electronics, PCs, and media servers.
WMV semiconductor IPs are essential for facilitating seamless video streaming services and applications. They are tailored to optimize the efficiency of video playback, ensuring reduced latency and enhanced video quality in both online and offline settings. These IPs support various levels of video resolution, making them suitable for different types of digital content, from standard to high definition. The integration of WMV IPs allows manufacturers to expand the video capabilities of their devices, ensuring compatibility with a broad spectrum of media content and providing users with a reliable, high-quality viewing experience.
Incorporating WMV multimedia semiconductor IPs can significantly enhance the capabilities of digital devices, providing support for dynamic video applications. Devices such as smart TVs, video game consoles, set-top boxes, and mobile phones can benefit from these IPs, enabling them to exploit advanced video codecs to deliver a superior media experience. These IPs ensure that products remain competitive in a rapidly evolving digital market by allowing for smooth integration of video technologies that meet consumer demands for quality and performance.
Developers and designers in the multimedia field will find a range of products within this category, including video encoder and decoder IPs that are highly configurable, enabling custom solutions tailored to specific needs and performance benchmarks. Whether designing for consumer electronics, professional multimedia equipment, or enterprise-level digital broadcasting tools, WMV multimedia semiconductor IPs offer indispensable functionality to meet the diverse demands of the multimedia industry.
The Metis AIPU PCIe AI Accelerator Card is engineered for developers demanding superior AI performance. With its quad-core Metis AIPU, this card delivers up to 214 TOPS, tackling challenging vision applications with unmatched efficiency. The PCIe card is designed with user-friendly integration in mind, featuring the Voyager SDK software stack that accelerates application deployment. Offering impressive processing speeds, the card supports up to 3,200 FPS for ResNet-50 models, providing a competitive edge for demanding AI tasks. Its design ensures it meets the needs of a wide array of AI applications, allowing for scalability and adaptability in various use cases.
The Metis AIPU M.2 Accelerator Module is designed for devices that require high-performance AI inference in a compact form factor. Powered by a quad-core Metis AI Processing Unit (AIPU), this module optimizes power consumption and integration, making it ideal for AI-driven applications. With a dedicated memory of 1 GB DRAM, it enhances the capabilities of vision processing systems, providing significant boosts in performance for devices with Next Generation Form Factor (NGFF) M.2 sockets. Ideal for use in computer vision systems and more, it offers hassle-free integration and evaluation with Axelera's Voyager SDK. This accelerator module is tailored for any application seeking to harness the power of AI processing efficiently. The Metis AIPU M.2 Module streamlines the deployment of AI applications, ensuring high performance with reduced power consumption.
Ncore Cache Coherent Interconnect is designed to tackle the multifaceted challenges in multicore SoC systems by introducing heterogeneous coherence and efficient cache management. This NoC IP optimizes performance by ensuring high throughput and reliable data transmission across multiple cores, making it indispensable for sophisticated computing tasks. Leveraging advanced cache coherency, Ncore maintains data integrity, crucial for maintaining system stability and efficiency in operations involving heavy computational loads. With its ISO26262 support, it caters to automotive and industrial applications requiring high reliability and safety standards. This interconnect technology pairs well with diverse processor architectures and supports an array of protocols, providing seamless integration into existing systems. It enables a coherent and connected multicore environment, enhancing the performance of high-stakes applications across various industry verticals, from automotive to advanced computing environments.
High-resolution Image Processing IP Performance 4K60p@400MHz (600MHz for display interface) Features Support various color format : YUV420, YUV422, YUV444, and RGB Up-/Down-scaler x1/8~x8 : selectable scaler algorithm with Bi-cubic and Lanczos Two scalers, connected to DRAM and display/direct I/F respectively, operating at different ratios at the same time (configurable to one scaler option) Color space conversion : YUV2RGB and RGB2YUV, coefficient downloadable Optional features Crop and digital zoom : scaling on cropped region Flip : horizontal and vertical 3rd Party interfaces: such as AFBC v1.2 and PVRIC v4 (support output only) Interface Display Interface : 3 channels for components with vertical/horizontal sync signal (ITU-R BT.601 compatible) Direct Interface (optional feature) : On-the-fly interface based on ready-valid protocol Support CF10 (Chips&Media’s Frame buffer compression) for Chips&Media video codec Support AFBC v1.2 and PVRIC v4 (optional feature) for output of MAPI
FlexWay Interconnect is precisely engineered for cost-effective and low-power applications, particularly suited for Internet-of-Things (IoT) edge devices and microcontrollers. It ensures efficient data management across small to medium scale SoCs. Providing support for ISO26262, it bolsters safety and reliability in critical applications. This interconnect allows for flexible topology generation, enabling configurations that minimize wire lengths and optimize timing closures. Its inherently scalable design allows for incremental upgrades and enhancements, accommodating up to 50 network interface units for customizable connections across configurations. The technology underpinning FlexWay supports key industry protocols such as AXI and APB, making it adaptable to various design requirements. The inclusion of automatic, script-driven topology generation and mesh network editing capabilities means that design complexity is significantly reduced, easing the path from concept to production.
ASRC-Pro is a high-performance 24-bit multi-channel audio sample rate converter designed to meet the demands of sophisticated audio applications. With an impressive THD+N rating of -130dB, it offers unparalleled audio clarity and minimal distortion. This converter is highly suitable for professional audio systems where precision and high fidelity are paramount. The converter supports asynchronous audio sample conversion, seamlessly managing the transition between varying sample rates across devices. Its fully digital architecture eliminates the need for external PLLs, streamlining integration and reducing complexity. With support for Parallel, Parallel TDM, I2S, Serial TDM, and SPDIF-AES3 interfaces, ASRC-Pro provides comprehensive compatibility for diverse audio configurations. ASRC-Pro is an invaluable asset in environments where maintaining audio signal integrity across different systems is crucial. By utilizing two clocks for synchronous operations, the converter ensures precise timing and synchronization, making it a top choice for audio professionals requiring exceptional audio processing performance.
The VoSPI Rx for FLIR Lepton IR Sensor is designed to cater to infrared sensor needs for various applications. Specially configured to support the FLIR Lepton sensor, this receiver facilitates effective and precise data handling of infrared signals, crucial in environments demanding high thermal accuracy. It provides real-time processing capabilities, aligning with the rigorous demands of security and monitoring applications. This receiver excels in maintaining data integrity, ensuring that the thermal data transmitted across platforms is of the highest accuracy. Its sophisticated engineering allows it to work seamlessly with other system components, enhancing system performance and reliability. The receiver is integrated with features that boost signal processing while minimizing latency, providing a seamless operational environment. This ensures that users can rely on it for consistent performance across various industry applications, boosting both efficiency and reliability.
CodaCache Last-Level Cache is an advanced, shared cache solution specifically designed to minimize memory latency and boost SoC performance. Its configurable nature allows it to be tailored to specific design needs, optimizing data flow and enhancing power efficiency across the chip. This cache helps overcome common SoC challenges related to timing closure, performance, and layout congestion by providing a flexible caching architecture that ensures effective data management and reliable operations. Its role in optimizing memory hierarchy enhances computational speeds and system reliability. CodaCache is particularly beneficial for applications that require rapid access to large data sets, ensuring that power consumption is minimized while maintaining high performance standards. Its versatility and efficiency make it a top choice for industries striving for high data throughput and low latency operations.
The ASRC-Lite is a 16-bit multi-channel audio sample rate converter designed to offer superior audio performance. With a THD+N of -90dB, this converter enables seamless audio conversions across different sample rates, ensuring high fidelity and minimal distortion. Ideal for interfacing digital audio equipment, ASRC-Lite supports multiple audio channels and asynchronous conversion, making it an essential component for professional audio setups. Built on a fully digital design, ASRC-Lite does not require analog components like PLLs, thus simplifying integration into existing systems. The IP core supports multiple standard interfaces including Parallel, Parallel TDM, I2S, Serial TDM, and SPDIF-AES3, providing flexibility to cater to various audio connectivity requirements. The converter uses a two-clock design for synchronous input and output operations, enabling precise audio signal processing. ASRC-Lite is particularly valuable for scenarios where audio equipment operates at differing sample rates, maintaining audio quality and synchronization. By accommodating a wide range of clock frequencies, this converter is engineered to deliver reliable and efficient audio sample rate conversions, ensuring compatibility and quality across audio devices.
The Vega eFPGA is a flexible programmable solution crafted to enhance SoC designs with substantial ease and efficiency. This IP is designed to offer multiple advantages such as increased performance, reduced costs, secure IP handling, and ease of integration. The Vega eFPGA boasts a versatile architecture allowing for tailored configurations to suit varying application requirements. This IP includes configurable tiles like CLB (Configurable Logic Blocks), BRAM (Block RAM), and DSP (Digital Signal Processing) units. The CLB part includes eight 6-input Lookup Tables that provide dual outputs, and also an optional configuration with a fast adder having a carry chain. The BRAM supports 36Kb dual-port memory and offers flexibility for different configurations, while the DSP component is designed for complex arithmetic functions with its 18x20 multipliers and a wide 64-bit accumulator. Focused on allowing easy system design and acceleration, Vega eFPGA ensures seamless integration and verification into any SoC design. It is backed by a robust EDA toolset and features that allow significant customization, making it adaptable to any semiconductor fabrication process. This flexibility and technological robustness places the Vega eFPGA as a standout choice for developing innovative and complex programmable logic solutions.
HEVC/H.265 Main/Main10/ Main Still Picture Profile @L5.2 AVC/H.264 BP/CBP/MP/HP/HP10 @L5.2 Capable of encoding up to 8K ((8192x4096) A 32-bit AMBA3 APB bus for host CPU system control 128-bit AMBA3 AXI for data transfer (Optionally, additional secondary AXI) Latency tolerance Low power consumption Programmability Configurable IP Multi-instances Frame buffer compression (CFrame) Rotation & Mirroring Bit-depth & chroma sub-sample conversion Background detection 3DNR Lambda table QP Map Custom mode decision, etc.
Video Codec Standard AV1: Main/High profile @ L6 Main tier 50Mbps Professional profile except 12-bit @ L6 Main tier 50Mbps Mono/YUV420/YUV422/YUV444 8-/10-bit HEVC/H.265: Main/Main 10/Main 4:2:2 10 profile @ L6 High tier Main 4:4:4/Main 4:4:4 10 profile @ L6 High tier (Only support 4:2:0 coding tools, high precision weighted prediction, and chroma QP offset list) AVC/H.264: Baseline/Constrained Baseline/Main/High/High10 profile @ L6 High 10 Intra/High 4:2:2/High 4:2:2 Intra profile with frame_mbs_only_flag = 1 @ L6 High 4:4:4 Predictive/High 4:4:4 Intra/CAVLC 4:4:4 Intra profile @ L6 with: frame_mbs_only_flag = 1 bit_depth_luma ≤ 10 bit_depth_chroma ≤ 10 frame_mbs_only_flag = 1 and qpprime_y_zero_transform_bypass_flag = 0 VP9 (Decoder only): Profile 0 and Profile 2 (12-bit not supported), YUV420 8/10-bit Performance 4K120fps@500MHz with a dual-core 4K240fps@1GHz or 8K60fps@1GHz with a dual-core Max resolution: 8192 x 8192 Min resolution: 256 x 128 Bit depth: 8-/10-bit depth Features Frame buffer compression (FBC) Multi-instances 3rd Party I/F Bit depth and YUV format conversion of the source picture Rotate/Mirror Down-scaler Crop Encoder Features I/P/B picture coding Picture/Block level of rate control ROI coding Background coding Interface AMBA3 32-bit APB I/F for host I/F AMBA3 128-bit AXI for data transfer (optional AXI can be used to alleviate bandwidth usage.)
FlexNoC Interconnect is a cutting-edge solution designed to ensure efficient on-chip communications. This physically aware NoC addresses ISO26262 support, delivering up to a five-fold reduction in turnaround time for timing closure efforts compared to manual iterations. It's engineered for high bandwidth and load-balanced data traffic management, simplifying backend timing closure. By incorporating automatic routing and congestion management, FlexNoC maintains seamless data flow while reducing development time and project risks. With this resilient interconnect technology, designers can capitalize on advanced quality-of-service and debugging features, supporting up to 1024-bit data buses and 512 pending transaction capabilities. This practical design makes FlexNoC a preferred choice in various high-demand markets such as automotive and consumer electronics. FlexNoC's adaptable architecture supports multiple protocols including AXI, AHB, and APB, and allows for NIU tiling with options that extend flexibility. Its support for safety-critical applications ensures compliance with standards, making it suitable for markets requiring stringent reliability.
HEVC/H.265 - Main/Main10 Profile @L5.1 AVC/H.264 - BP/CBP/MP/HP/HP10 Profile @ L5.2 Capable of decoding up to 4K60fps (8192x4096) A 32-bit APB bus and 128-bit AMBA3 AXI buses (w/ additional secondary AXI) Burst Write Back Map converter Low delay Low power consumption Configurable IP Latency tolerance Programmability Multi-instances Frame buffer compression (CFrame) Secondary AXI interfaces Downscaler (on-the-fly mode)
Video Codec Standard HEVC/H.265: Main profile @ L5.1 High tier AVC/H.264: Baseline/Constrained Baseline/Main/High profile @ L5.2 Performance 4K60fps@500MHz Max resolution: 8192 x 8192 Min resolution: 256 x 128 Bit depth: 8-bit depth Features Frame buffer compression (FBC) Multi-instances 3rd Party I/F Bit depth and YUV format conversion of the source picture Encoder Features I/P picture coding Picture/Block level of rate control ROI coding Background coding Interface AMBA3 32-bit APB I/F for host I/F AMBA3 128-bit AXI for data transfer (Optional AXI can be used to alleviate bandwidth usage.)
Video Codec Standard HEVC: Main/Main Still Picture profile @ L5.1 High tier AVC: Baseline/Constrained Baseline/Main/High profiles @ L5.2 Performance 4K60fps@500MHz Max resolution: 8192 x 4096 Min resolution: 256 x 128 Bit depth: 8-/10-bit depth Features Multi-instances Frame-buffer compression (CFrame) In-loop filter Rotation & Mirroring Bit depth & chroma sample format conversion Lossless coding Background coding MapConverter 3DNR, etc. Interface 32-bit AMBA3 APB bus 128-bit AMBA3 AXI buses Primary AXI interface and an optional secondary AXI interface
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.
Magillem Connectivity stands out as an automated solution for efficient SoC integration, minimizing design risk and accelerating time-to-market. It manages system-level connectivity in a streamlined manner through automation and built-in verification tools. Designed to handle complex SoC assembly, Magillem Connectivity significantly boosts design quality by incorporating rigorous rule-based connectivity checks. This results in more robust and reliable designs that are easier to manage and modify. The tool provides extensive support for hierarchical connections and netlist generation, ensuring consistency and efficiency. The flexibility offered by Magillem Connectivity allows design teams to focus on product innovation, knowing that the integration process is being managed efficiently. This makes it ideal for projects pushing the boundaries in performance and design complexity.
Video Codec Standard HEVC: Main/Main Still Picture profile @ L5.1 High tier AVC: Baseline/Constrained Baseline/Main/High profiles @ L5.2 Performance 4K60fps@500MHz Max resolution: 8192 x 4096 Min resolution: 256 x 128 Bit depth: 8-bit Features Multi-instances Frame-buffer compression (CFrame) In-loop filter Rotation & Mirroring Bit depth & chroma sample format conversion Lossless coding Background coding Down-scaler (On-the-fly mode) MapConverter 3DNR, etc. Interface 32-bit AMBA3 APB bus 128-bit AMBA3 AXI buses Primary AXI interface and an optional secondary AXI interface
Video Codec Standard AV1: Main profile @ L5.1 HEVC: Main/Main10 profile, Main/Main 10 Still Picture profile @ L5.1 High tier AVC: Baseline/Constrained Baseline/Main/High/High 10 profile @ L5.2 (Interlaced coding tools are not supported) Performance 4K60fps@500MHz Max resolution: 8192 x 8192 Min resolution: 256 x 128 Bit depth: 8-/10-bit depth Features Frame buffer compression (FBC) Multi-instances 3rd Party I/F Bit depth and YUV format conversion of the source picture Encoder Features I/P/B picture encoding Picture/Block level of rate control ROI coding Background coding Interface AMBA3 32-bit APB I/F for host I/F AMBA3 128-bit AXI for data transfer * Optional AXI can be used to alleviate bandwidth usage
Video Codec Standard HEVC: Main/Main10 profile @ L6 High tier AVC: Baseline/Constrained Baseline/Main/High/High 10 profile @ L6 (Interlaced coding tools are not supported) Performance 4K120fps@500MHz or 8K60fps@1GHz Max resolution: 8192 x 8192 Min resolution: 256 x 128 Bit depth: 8-/10-bit depth Features Frame buffer compression (FBC) Multi-instances 3rd Party I/F Bit depth and YUV format conversion of the source picture Encoder Features I/P/B picture encoding Picture/Block level of rate control ROI coding Background coding Interface AMBA3 32-bit APB I/F for host I/F AMBA3 128-bit AXI for data transfer *Optional AXI can be used to alleviate bandwidth usage
Magillem 5 Registers provides a single-source environment that facilitates the seamless development of hardware/software interfaces. By ensuring synchronization between hardware designs, software components, and documentation, it mitigates design errors, streamlining the integration process. This solution is crucial in creating a collaborative development environment that maintains consistency and accuracy across all design stages. It supports importing memory map descriptions, facilitating the automatic generation of consistent data outputs and comprehensive documentation. The system's robust cross-compiler engine produces the necessary data views for teams, enhancing the quality and consistency of interface design. Magillem 5 Registers is essential for teams looking to optimize their register management processes and improve efficiency in SoC development.
Video Codec Standard HEVC/H.265: Main profile @ L5.1 High tier AVC/H.264: Baseline/Constrained Baseline/Main/High profile @ L5.2 Performance 4K60fps@500MHz with a single-core Max resolution: 8192 x 8192 Min resolution: 256 x 128 Bit depth: 8-/10-bit depth Features Frame buffer compression (FBC) Multi-instances 3rd Party I/F Bit depth and YUV format conversion of the source picture Encoder Features I/P/B picture coding Picture/Block level of rate control ROI coding Background coding Interface AMBA3 32-bit APB I/F for host I/F AMBA3 128-bit AXI for data transfer (Optional AXI can be used to alleviate bandwidth usage.)
Video Codec Standard AV1: Main profile @ L5.1 Main tier 50Mbps HEVC/H.265: Main/Main 10 profile @ L5.1 High tier AVC/H.264: Baseline/Constrained Baseline/Main/High/High10 profile @ L5.2 (Interlaced coding tools are not supported.) VP9 (Decoder only): Profile 0 and Profile 2 (12-bit not supported) Performance 4K60fps@500MHz with a single-core Max resolution: 8192 x 8192 Min resolution: 256 x 128 Bit depth: 8-/10-bit depth Features Frame buffer compression (FBC) Multi-instances 3rd Party I/F Bit depth and YUV format conversion of the source picture Encoder Features I/P/B picture coding Picture/Block level of rate control ROI coding Background coding Interface AMBA3 32-bit APB I/F for host I/F AMBA3 128-bit AXI for data transfer (Optional AXI can be used to alleviate bandwidth usage.)
Supported standards for Decoder ISO/IEC23008-2 HEVC/H.265, ITU-T Rec. H.265 Main/Main10 Profile L5.1 AVC/H.264 BP/CBP/MP/HP/HP10 Profile @ L5.2 AVS2 Main/Main10 Profile @L8.0.60 Main performance 4K(3840x2160) 60fps @ 450MHz Max. resolution: 8192x4096 Features Frame buffer compression (CFrame) Embedded Post-processing (w/Down-scaler) Low delay Low power consumption Latency tolerance Interface AMBA 32-bit APB interface for Host CPU AMBA 128-bit AXI interface for the external memory
Video Codec Standard AV1: Main profile @ L6 Main tier 50Mbps HEVC/H.265: Main/Main10 profile @ L6 High tier AVC/H.264: Baseline/Constrained Baseline/Main/High/High 10 profile @ L6 VP9 (Decoder only): Profile 0 and Profile 2 (12-bit not supported) Performance 4K120fps@500MHz with a dual-core 4K240fps@1GHz or 8K60fps@1GHz with a dual-core Max resolution: 8192 x 8192 Min resolution: 256 x 128 Bit depth: 8-/10-bit depth Features Frame buffer compression (FBC) Multi-instances 3rd Party I/F Bit depth and YUV format conversion of the source picture Encoder Features I/P/B picture coding Picture/Block level of rate control ROI coding Background coding Interface AMBA3 32-bit APB I/F for host I/F AMBA3 128-bit AXI for data transfer (Optional AXI can be used to alleviate bandwidth usage.)
Brief specification HEVC/H.265 Main/Main10 Profile @L5.1 AV1 Main Profile @ L5.1 VP9 Profile 0/ Profile 2 @L5.1 AVC/H.264 BP/CBP/MP/HP/HP10 Profile @ L5.2 AVS2 Main/Main10 Profile @L8.0.60 Main performance 4K(3840x2160) 60fps @ 450MHz Max. resolution: 8192x4096 System I/F A 32-bit APB bus and 128-bit AMBA3 AXI buses (w/additional Secondary AXI) Burst Write Back (BWB) Features Frame buffer compression (CFrame) Embedded Post-processing (w/Down-scaler) Low delay Low power consumption Latency tolerance
Video Codec Standard AV1: Main profile @ L6 High tier HEVC/H.265: Main/Main10 profile @ L6 High tier AVC/H.264: Baseline/Constrained Baseline/Main/High/High 10 profile @ L6 Performance 4K120fps@500MHz with a dual-core 4K240fps@1GHz or 8K60fps@1GHz with a dual-core Max resolution: 8192 x 8192 Min resolution: 256 x 128 Bit depth: 8-/10-bit depth Features Frame buffer compression (FBC) Multi-instances 3rd Party I/F Bit depth and YUV format conversion of the source picture Encoder Features I/P/B picture coding Picture/Block level of rate control ROI coding Background coding Interface AMBA3 32-bit APB I/F for host I/F AMBA3 128-bit AXI for data transfer (Optional AXI can be used to alleviate bandwidth usage.)
Video Codec Standard HEVC: Main/Main Still Picture profile @ L5.1 High tier AVC: Baseline/Constrained Baseline/Main/High profiles @ L5.2 Performance 4K60fps@500MHz Max resolution: 8192 x 4096 Min resolution: 256 x 128 Bit depth: 8-bit Features Multi-instances Frame-buffer compression (CFrame) In-loop filter Rotation & Mirroring Bit depth & chroma sample format conversion Lossless coding Background coding 3DNR, etc. Interface 32-bit AMBA3 APB bus 128-bit AMBA3 AXI buses Primary AXI interface and an optional secondary AXI interface
The UWB Impulse Radar Toolkit is a versatile and robust solution for environments requiring precise detection and monitoring capabilities. Utilizing ultra-wideband technology, this toolkit is designed to perform exceptionally well in applications where detecting subtle movements or changes is critical, such as in search and rescue operations or advanced surveillance systems. This toolkit is particularly well-suited for penetrating various materials, allowing for effective monitoring in diverse conditions and terrains. Its range and sensitivity make it invaluable for scientists and engineers in fields that require detailed subsurface and through-the-wall imaging capabilities. The UWB Impulse Radar Toolkit supports both research and practical applications by providing reliable and accurate data essential for decision-making. Durable and adaptable, this toolkit can be employed in a wide array of environments and for an array of purposes, from geological exploration to security monitoring. Its capability to deliver high-resolution, real-time data ensures that users are well-equipped to handle demanding operational needs.
Decoding/Encoding Tools Support Extended Sequential ISO/IEC 10918-1 JPEG compliance Support one or three color components Three components in a scan (interleaved only) 8-bit and 12-bit samples for each component Support 4:2:0, 4:2:2, 4:4:0, 4:4:4 and 4:0:0 color formats Max. six 8x8 blocks in one MCU Support NV12/NV16/NV24 (CbCr Interleaved), NV21/NV61/NV42 (CrCb Interleaved) Support from 16 x 16 to 32K x 32K (32,768 x 32,768) image size Packed mode is supported 12-bit PPM format is supported Value-added Features Partial mode for encoding and decoding On-the-fly rotator/mirror ROI(Region of Interest) for decoding On-the-fly downsampler for decoding Color format converting for decoding Performance Decode up to 290M pix/s for 4:2:0 color format Encode up to 290M pix/s for 4:2:0 color format Operating clock frequency: 200MHz Ease of integration AMBA 32-bit APB (w/ PREADY) interface for communication with a host processor AMBA 64-bit AXI interface for the external memory
The Automated Railway Crossing Surveillance System, known as PAKS, offers groundbreaking solutions for enhancing the safety and management of railway intersections. By implementing advanced surveillance technologies, PAKS ensures that crossings are monitored continuously and efficiently, reducing the risk of accidents and improving traffic flow. This system uses high-resolution cameras paired with state-of-the-art data analysis software to detect and report any obstructions or malfunctions in real time. By providing live updates and alerts to authorities, it facilitates timely interventions that can prevent potential incidents. The system's robust design allows it to operate effectively under varying weather conditions, making it a dependable choice for railway management worldwide. PAKS represents a significant leap forward in railway safety technology, combining innovative surveillance methods with reliable communication channels to enhance both operational efficiency and public safety.
HEVC/H.265 Main/Main10 Profile @L5.1 AVC/H.264 BP/CBP/MP/HP/HP10 Profile @ L5.2 VP9 Profile 0/Profile 2 (HBD) AVS2 Main10 Profile @L8.0.60 Capable of decoding up to 4Kp60 (8192x4096) A 32-bit APB bus and 128-bit AMBA3 AXI buses (w/ additional secondary AXI) Burst Write Back Map converter Low delay Low power consumption Configurable IP Latency tolerance Programmability Multi-instances Frame buffer compression (CFrame) Downscaler (on-the-fly mode)
H.264, MVC, VP8, MPEG-1/2/4, VC-1, AVS, AVS+, H.263, Sorenson Decoding and encoding support at 1080p 60fps Supported standards for Decoder ISO/IEC 14496-10 AVC/H.264 BP/MP/HP@L4.2 ISO/IEC 14496-10/5 MVC Stereo High Profile@L4.1 ISO/IEC 14496-2 MPEG-4 SP,ASP@L6 SMPTE 421M-2006 VC-1 SP/MP/AP@L3 ISO/IEC 13818-2 MPEG-2 MP@HL ITU-T H.263(Annex I,J,K,T) AVS Jizhun @L6.2 AVS+ Guangdian @L6.2 On2 VP8 Sorenson Spark Theora Supported standards for Encoder ISO/IEC 14496-10 AVC/H.264 BP/MP/HP@L4.2 ISO/IEC 14496-10/5 MVC Stereo High Profile@L4.1 ISO/IEC 14496-2 MPEG-4 SP@L6 ITU-T H.263(Annex J,K,T) Supported Max. Resolution Supports up to 2048x2048 resolution Performance Single-stream H.264 HD(1920x1080p) 30fps decoding at <133MHz core clock H.264 HD(1920x1080p) 60fps decoding at <266MHz core clock H.264 HD(1920x1080p) 30fps encoding at <133MHz core clock H.264 HD(1920x1080p) 60fps encoding at <266MHz core clock Multi-stream Dual H.264 HD(1920x1080p) 30fps decoding at <266MHz core clock Dual H.264 HD(1920x1080p) 30fps encoding at <266MHz core clock 6SD/D1(NTSC&PAL) 30fps decoding at <133MHz core clock Full HD(1080p) encoding and decoding at <266MHz core clock Encoding Tools Selective [+/-64,+/-48] Quarter-pel and half-pel accuracy motion estimation using a full- search algorithm Flexible bit-rate control CBR VBR Fixed QP CABAC/CAVLC for AVC/H.264 Built-in pre- rotation/mirroring function 90xn degree rotation Vertical/horizontal mirroring Decoding Tools CABAC/CAVLC for AVC/H.264 MPEG-4 AC/DC prediction AVC/H.264 intra-prediction In-loop deblocking filter for H.264, H.263, and AVS Overlapped smoothing filter for VC-1 Built-in post-processing function 90xn degree rotation Vertical/horizontal mirroring De-ringing De-blocking filter for MPEG-2/4 Interface AMBA 32-bit APB interface for Host CPU AMBA 64-bit AXI interface for the external memory
Video Codec Standard HEVC/H.265: Main/Main 10 profile @ L6 High tier AVC/H.264: Baseline/Constrained Baseline/Main/High/High 10 profile @ L6 Performance 4K120fps@500MHz or 8K30fps@500MHz with a dual-core 4K240fps@1GHz or 8K60fps@1GHz with a dual-core Max resolution: 8192 x 8192 Min resolution: 256 x 128 Bit depth: 8-/10-bit depth Features Frame buffer compression (FBC) Multi-instances 3rd Party I/F Bit-depth and YUV format conversion of the source picture Encoder Features I/P/B picture coding Picture/Block level of rate control ROI coding Background coding Interface AMBA3 32-bit APB I/F for host I/F AMBA3 128-bit AXI for data transfer (optional AXI can be used to alleviate bandwidth usage.)
Video Codec Standard AV1: Main Profile @ L5.1 Performance 4K60fps@500MHz Max resolution: 8192 x 8192 Min resolution: 256 x 128 Bit depth: 8-/10-bit depth Features Frame buffer compression (FBC) Multi-instances 3rd Party I/F Bit-depth and YUV format conversion of the source picture Encoder Features I/P/B picture coding Picture/Block level of rate control ROI coding Background coding Interface AMBA3 32-bit APB I/F for host I/F AMBA3 128-bit AXI for data transfer * Optional AXI can be used to alleviate bandwidth usage
CSRCompiler serves as an effective tool for managing and automating the hardware-software interface definition process. It ensures high-quality performance by enabling a true cross-compiler system that provides comprehensive views for hardware and software design teams alike. This tool is particularly beneficial for synchronization across development stages, enhancing collaboration and reducing potential errors in the hardware-software interface. The automation capabilities streamline processes, ensuring that all aspects of the interface are consistent and meticulously maintained. CSRCompiler optimizes the interface development process, contributing to reduced time-to-market and improved design reliability. It is an invaluable component for design teams seeking to harmonize hardware-software interactions in complex systems.
The ASRC-Lite-up is a specially designed 16-bit audio sample rate up converter, offering a THD+N performance of -90dB to enhance audio output quality. Tailored for applications that require upsampling of audio signals, ASRC-Lite-up ensures that equipment operating at lower sample rates can seamlessly integrate with higher sample rate systems while preserving audio integrity. This IP core supports multiple audio channels, facilitating the handling of complex audio environments by converting signals asynchronously. Its design incorporates a fully digital approach, removing the necessity for PLLs, which simplifies compatibility with existing audio frameworks. Interfaces like Parallel, Parallel TDM, I2S, Serial TDM, and SPDIF-AES3 are readily supported, demonstrating its versatility and adaptability to various audio setups. Perfect for scenarios involving disparate sample rates, ASRC-Lite-up guarantees the preservation of audio fidelity and improves signal synchronization. By supporting various clock frequencies, it stands as a robust solution for any application where audio conversion is required, ensuring smooth and efficient data processing.
FlexGen Smart Network-on-Chip represents a leap forward in NoC design, driven by AI-based heuristics. This technology focuses on minimizing wire length, refining topology, and reducing latency, boosting productivity and enhancing SoC efficiency. This smart NoC extends capabilities to automate high-performance network-on-chip designs, achieving productivity improvements up to tenfold and reducing wire length by up to 30%. Offering a new level of automation, it embeds advanced features for dynamic priority handling and congestion management. FlexGen Smart NoC's integration boosts the technological potential of network designs, underpinning improved performance and cost-efficiency in any application, from automotive systems to advanced computing solutions.
H.264, MVC, VP8, MPEG-1/2/4, VC-1, AVS, AVS+, H.263, and Sorenson decoder HW IP for 2Kp60, 4:2:0 Standards AVC/H.264 BP/CBP/MP/HP L.4.1 Max: 1920x1088; Min: 16x16 MVC SHP L.4.1 Max: 1920x1088; Min: 16x16 MPEG-4 SP/ASP L.5 Max: 1920x1088; Min: 16x16 H.263 Profile 3 Max: 1920x1088; Min: 16x16 VC-1 SP/MP/AP L.3 Max: 1920x1088 or 2048x1024 Min: 16x16 MPEG-1/2 MP L.high Max: 1920x1088; Min: 16x16 Sorenson Spark Max: 1920x1088; Min: 16x16 VP8 WebM/WebP Max: 1920x1088; Min: 16x16 Theora Max: 1920x1088; Min: 16x16 AVS Jizhun/Guangdian L6.2 Max: 1920x1088; Min: 16x16 Features Frame buffer compression (CFrame) Low delay decoding Configurable IP Programmability Low power consumption Frame-based processing Multi-instances Latency tolerance Burst Write Back Down-scaler (on-the-fly mode) Map converter MPEG-2/4 De-ringing Built-in de-blocking filter A 32-bit AMBA3 APB bus and 64-bit AMBA3 AXI buses (w/additional Secondary AXI buses)
The ASRC-Premier is a 20-bit, high-definition audio sample rate converter tailored for convert high-yield audio signals with exceptional clarity and minimal noise. Featuring a THD+N of -120dB, it offers superior noise reduction and precision audio processing, making it indispensable for high-end audio applications requiring stringent quality standards. This IP core facilitates the conversion of multiple channels in digital audio, supporting asynchronous operations to handle various sample rates fluidly. It sports a purely digital configuration, allowing easier integration by excluding the need for PLLs. The ASRC-Premier accommodates interfaces like Parallel, Parallel TDM, I2S, Serial TDM, and SPDIF-AES3, showing adaptability to a wide array of audio configurations. With its ability to manage audio signals effectively, ASRC-Premier is essential where there is a critical requirement to maintain audio synchronization and consistency. It uses dual clocks to ascertain precise operations, thereby certifying its status as an elite choice for audio professionals who prioritize both performance and quality in audio conversions.
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