Sharp Microelectronics and Actimagine Collaborate to Boost SoC Video Capabilities
February 22, 2006 -- Actimagine announces its collaboration with Sharp Microelectronics of the Americas to increase video performance for ARM7- and ARM9-based portfolio of BlueStreak™ microcontrollers. By incorporating an innovative codec developed by Actimagine, Sharp’s SoC devices realize a fourfold increase in video decompression rates without any additional power consumption.
Anticipating the growing market demand for increased media performance, Sharp Microelectronics has leveraged its IC expertise with Actimagine’s software technology to deliver advanced performance solutions for video device designs. These improvements open new possibilities for media-rich electronic devices by achieving higher video performance without switching to a higher performance processor or increasing overall power consumption. These enhanced SoCs are ideal for portable media devices, including those with Vector Graphics content.
“Sharp Microelectronics and Actimagine have been collaborating worldwide for over two years to help our customers meet their time-to-market demands for cost-effective high quality video and gaming products,” said Al Franceschino, Senior Business Development Manager for Sharp’s Bluestreak line. “The synergy between Actimagine’s software IP and Sharp’s SoC line has enhanced our ability to deliver complete system-level solutions to our customers while reducing their total bill of materials.”
Actimagine’s software codec features a powerful new decompression method designed for general-purpose microcontrollers. A side-by-side comparison of Actimagine’s codec with an MPEG4 codec allowed Sharp’s family of SoCs to render four times more pixels at the same frame rate and quality. Sharp’s ARM7-based MCUs can now support Vector Graphics at 30 frames per second (fps) and Video at 24 fps on a QVGA screen at 77 MHz; its ARM9-based MCUs can run Vector Graphics at 30 fps and video at 24 fps on a VGA screen at 266 MHz – all with excellent audio quality.
“Power consumption is critical in the portable electronics market, with consumers demanding more functionality in an increasingly smaller form factor. Actimagine designed this codec to make optimal use of the available power, rather than requiring additional power," said André Pagnac, Chief Executive Officer, Actimagine. “Sharp’s platforms are a good fit for Actimagine’s software. When compared to architectures with similar process speeds, Sharp returns better performance. Additionally, Sharp’s leadership in LCD and system solutions for video-centric applications gives us access to the fast-growing mobile electronics market.”
Designers can take advantage of these new enhanced SoCs in two key ways. They can achieve target frame rates and resolution using lower-cost and less-complex SoCs. Consequently, they don’t have to design in a new processor to add video functionality to a product. Products using ARM7 cores are now video capable. This better performance is attained without additional power, giving a longer battery life to portable devices.
Conversely, design engineers can lower hardware requirements to achieve the same resolution. By decreasing the operating frequency of the controller, customers can reduce both Electromagnetic Interference (EMI) and cost by using a less complex SoC. This scenario extends the lifespan of an SoC to meet next-generation performance demands.
For example, both ARM7 and ARM9 MCUs can run fully interactive Vector Graphics with sound at 24 fps. Additionally, mobile phones and video media players can run smooth games beginning with an ARM7 MCU with 77MHz.
The improved video capabilities will benefit consumer electronic products such as smart toys, portable game devices, and portable media players. Other ideal applications include end-of-aisle displays, digital signage, and kiosks.
“Video and display screens are now an integral part of electronic designs across several markets. As such, the connection between software and hardware is a key differentiating factor for a company whose customers face increasingly tight time-to-market and system cost challenges,” said Noel Giamello, Senior Director, Systems Solutions Business Unit for Sharp Microelectronics. “We are pleased to be among the first MCU companies to work with Actimagine, whose technologies can only continue to enhance the performance of Sharp’s powerful product offerings.”
This technology is also advantageous for proprietary content owners. The media device must have this codec in order to decompress and play the video. The Actimagine video encoder generates the Actimagine video format, called “VX.” This software encoder converts any video format such as MPEG4, AVI, and WMV into Actimagine VX format. The VX encoder is available as stand-alone PC software, as a server version for “on-the-fly” video conversion and mass conversion, and as a software library for integration in other video production. The Actimagine video format offers an additional layer of protection against piracy.
Sharp Microelectronics and Actimagine will continue to collaborate on R&D activities for future ICs to remain ahead of customers’ design requirements and to investigate business opportunities to support customers.
Actimagine’s technology integrates seamlessly into Sharp’s SoC devices, without any hardware modifications. Sharp’s SoCs continue to form the basis of its total system solutions, including high-quality LCD displays, Flash memory, optoelectronics devices, and other key design components, such as a touch screen.
Sharp Microelectronics also offers low-cost development tools to support these components, including a low-cost software development kit, developed by Logic Product Development. In addition, comprehensive software and documentation are available via Sharp’s BlueStreak Software Library, http://able.sharpsma.com.
Sharp’s enhanced SoCs are available now.
For more information visit Actimagine web site
Search Silicon IP
- Sharp Microelectronics and Actimagine Collaborate to Boost SoC Video Capabilities; Video Decompression Rates Increase Fourfold with Same Power Use
- ASPEED and CEVA Collaborate to Enable Superior Voice Experience on 2nd Generation Cupola360 SoC for Smart Cameras and Video Conferencing Systems
- SiFive and Synopsys Collaborate to Accelerate SoC Design
- Intrinsic ID Collaborates with Synopsys to Boost SoC Security and Accelerate Time to Market
- HDMI 2.0 Tx PHY in 12FFC along with Controller IP Core with high lossless Audio/Video data transfer, licensed for a 4KTV SoC
- Interview: Aart de Geus on AI-driven EDA
- CXL Testing Leverages PCIe Expertise
- Blue Ocean Smart System Unveils Chiplet-Based Products Powered by VeriSilicon's High-Performance Processors
- POLYN Introduces VibroSense, Industry-First Application-Specific Vibration Pre-Processing Chip Design
- Renesas Expands RISC-V Embedded Processing Portfolio with New Voice-Control ASSP Solution
- Veriest Solutions Promotes Dusica Glisic to Vice President of Frontend Engineering
- Synopsys.ai Unveiled as Industry's First Full-Stack, AI-Driven EDA Suite for Chipmakers
- Report: Arm proposes change to IP royalty model
- eMemory and UMC Expand Low-Power Memory Solutions for AIoT and Mobile Markets with 22nm RRAM Qualification
- Mobiveil's PSRAM Controller IP Lets SoC Designers Leverage AP Memory's Xccela x8/x16 250 MHz PSRAM Memory
|E-mail This Article||Printer-Friendly Page|