Single Board Computers
Our Single Board Computers are available in a range of Mil/Aero proven form factors and offer a choice of configurations and ruggedization levels designed to meet a wide range of performance and environmental requirements.
Expand functionality & performance without increasing power requirement
Abaco Systems specializes in the design and manufacture of single board computers (SBCs) tailored to meet the computing and ruggedization needs of our customers. This new line of rugged 3U and 6U in CPCI, VME, and OpenVPX SBC products, based on 3rd generation Intel Core i7 dual- and quad-core processors, along with our SBCs based on the 2nd generation Intel Core i7 dual- or quad-core processors, effectively double the computing capabilities of the previous generation of Core i7 processors with the addition of Advanced Vector Extensions (AVX) technology. AVX doubles the processor’s vector engine from 128 to 256 bits for a tremendous improvement in floating point processing. Intelligent Power Technology allows processors to operate at optimal frequency and power, while Turbo Boost Technology provides intelligent performance on-demand. Multi-level shared cache and Hyper-Thread Technology – 2 threads per core – improve performance and efficiency by reducing latency to frequently used data.
Specifically created with the defense community in mind
A founding member of the OpenVPX™ initiative, Abaco Systems is a staunch supporter of its mission of increasing the operability of VPX products from different vendors.
Many of our products are OpenVPX-compatible. We will continue to help our customers gain maximum benefit from this exciting development in the VPX marketplace as well as expand our portfolio of products that truly exploit the potential of VPX and OpenVPX.
We offer a comprehensive portfolio of single board computers and CPUs designed to meet almost any application need. Our SBCs are available in a multitude of form factors, processor speeds, memory configurations, I/O options, and levels of ruggedization. We also provide an evolutionary path for our processors that keeps pace with new technology.
Our high-resolution, high-performance graphics I/O solutions for embedded video and display applications and subsystems are based on high-performance commercial chips for state-of-the-art image quality and capabilities.
The Abaco family of high performance multiprocessing solutions includes Power Architecture- and Intel-based SBCs and multiprocessors as well as PMC/XMC carriers and FPGA processing engines.
We have one of the most extensive I/O lines in the embedded board industry, with a vast selection of Ethernet switches and LAN and WAN cards. Our range of other I/O interfaces includes packet processors, audio, video, storage, bus adapters, PCI Express, Fibre Channel, StarFabric and InfiniBand Technology.
Abaco can supply a range of VPX chassis and enclosure products and services from starter cages with rear transition modules and PCI Express cables, through to full turn-key rugged systems.
Our 3U VPX sensor processing solution builds on Abaco’s legacy of industry-leading digital receiver families and extending still further the growing ecosystem of Abaco 3U VPX solutions.
Abaco Intelligent Platform’s system-level experience in military subsystems provided valuable input to the OpenVPX Industry Working Group. As a working group member, we contributed to the development of the VPX Systems Specification, leveraging the work of existing VPX standards to create better interoperability. The ratified VPX Systems Specification defines an architecture that manages and constrains module and backplane designs, including defining pin outs, and sets interoperability points within VPX while maintaining full compliance with VPX.
Hear how our new SBCs can increase your application’s compute and graphics performance
Our four new rugged single board computers (SBC) based on 3rd Generation Intel® Core™ technology (a.k.a. Ivy Bridge) bring substantially increased processing power, graphics capability, I/O bandwidth and functional density to customers developing and deploying demanding industrial and mil/aero applications – including command/control, ISR (intelligence, surveillance, reconnaissance), radar/sonar and signal processing.
These new platforms – which are 100% compatible with their predecessors, making for a cost-effective, straightforward upgrade path for existing users – will deliver up to 15% greater computational horsepower, and up to 50% improved 3D graphics performance. Some of these new COTS boards offer support for USB 3.0 and provide up to 10x the data transfer throughput of USB 2.0. Power consumption/heat dissipation are identical to preceding products, providing attractive performance/watt and making the new boards ideal for environments that are SWaP (size, weight and power) constrained.
Targeted at a range of Mil/Aero applications from benign environment (air cooled) to fully rugged (conduction cooled), the SBC324, SBC624, XCR14, and XVR14 utilizes 2nd Generation Intel Core processors to deliver high level performance, in a multitude of form factors, in 3U and 6U sizes with choice of quad- or dual-core. Yielding greater performance than their predecessors, but within the same power envelope, these SBCs are ideal for SWaP-constrained environments such as manned and unmanned vehicles.
For applications that need multi-core and many-core performance
Abaco Systems announced that it would support the Freescale QorIQ processor architecture in future generations of single board computers. But what exactly is QorIQ – and why is it important?
To answer the second question first: QorIQ is representative of the industry trend that is seeing multi-core and many-core processors grow in popularity.
In theory, a dual core processor can double system throughput, a quad processor can quadruple system throughput and so on. In fact, this is seldom entirely achievable. One reason is that system throughput depends on more than just the performance of the processors. Perhaps more important, though, is the fact that, for multiple processors to be effective, the application or applications need to be capable of running – or designed to run – in parallel, rather than sequentially.
Many mil/aero applications can – or can be designed to – run in parallel, making multi-core and many core processors attractive. Military system designers already make extensive use of dual processor and quad processor configurations – and sometimes multiple dual processor or quad core processors are configured in the same chassis – for sophisticated applications such as digital signal processing.
However: slots in a chassis are always at a premium – and the need to constrain power/heat dissipation is invariably a challenge in designing these leading edge platforms. The advent of multi-core and many-core processors allows, in effect, substantially greater processing density to be achieved within a given number of slots – without an undue adverse effect on power/heat. This is achieved by processor manufacturers by using increasingly fine manufacturing processes: the QorIQ processors, for example, use a 45nm process.
Multi-core and many-core processors allow military embedded computing systems designers, then, to develop much more powerful systems that can be small in size and low in weight. It’s not just about raw processing power, however. For many system designers, there is a requirement to partition applications – using different operating systems with different strengths/capabilities, for example, or continuing to use legacy systems developed for one operating system in tandem with new applications developed using a different operating system. With a single processor architecture, this is possible using software to create the partition – but it invariably invokes a performance penalty. Implementing the same partitioning scheme is more efficient when more than one processor is available.
That’s why Freescale’s processor architecture is important – because it brings new levels of substantially superior processing power and flexibility to military systems designers. But what is QorIQ?
According to Freescale, QorIQ platforms enable the next generation of a broad range of applications by offering new levels of performance, power-efficiency and programmability. Built using one or more high-performance Power Architecture cores, QorIQ platforms are system on chip (SoC) processors designed with networking applications in mind. They consist of single-, dual- and multi-cores – all based on Freescale’s e500 Power Architecture technology. Importantly, for Abaco Systems customers, QorIQ is an evolutionary step from previous Power Architecture Freescale processors – allowing upgrade and technology insertion while maximizing customer investment in software, applications and expertise.
Abaco Systems has announced support for the QorIQ dual core P2020 and the eight core P4080 processors – but, in fact, the QorIQ range extends to five different platforms, using one or multiple e500 cores. These begin with the QorIQ P1 and P2 platforms – five package-, pin- and software-compatible processors designed to ease the transition from single- to dual-core processing. The QorIQ P4 platform integrates up to eight enhanced Power Architecture cores, a tri-level cache hierarchy, innovative CoreNet on-chip fabric and datapath acceleration. All platforms are delivered at 45-nanometer (nm) geometries – offering exceptional performance at embedded power budgets capping at 30 W.
The P2 platform is designed for a wide variety of applications in the networking, telecom, military and industrial markets. It will be available in extended temperature with junction tolerances from -40 to +125° C, especially suited for demanding environments. This mid-level platform offers initial device performance up to 1.2 GHz.
The P2020 processor is a member of the P2 platform and includes, among other integrated functionality, a 512 kB L2 cache, a security engine, three Gigabit Ethernet controllers, USB 2.0 controller, a 64-bit DDR2/DDR3 memory controller with ECC support, dual 4-channel DMA controllers, a SD/MMC host controller and high speed SerDes lanes which can be configured as three PCI Express interfaces, two Serial RapidIO interfaces and two SGMII interfaces. The P2020 is packaged in a 689-pin TEPBGA2 package which is pin-compatible with the P1 family processors. The P2010 includes a single 1.2 GHz core, while the P2020 includes two 1.2 GHz cores, the latter supporting both symmetric and asymmetric multiprocessing running multiple operating systems in parallel. Abaco Systems offers two single board computers utilizing the P2020 architecture: IMP3A 3U CPCI and PPC9A 6U VME SBCs.
The P4 series is a high-performance platform designed initially for backbone networking and enterprise-level switching and routing. The P4 family offers an extreme multi-core platform, with support for up to eight Power Architecture e500mc cores with initial frequencies up to 1.5 GHz each, connected by the CoreNet coherency fabric. The cores are supported by a hardware hypervisor and can be run in symmetric or asymmetric mode meaning that the cores can run and boot operating systems together or separately. Processors in the P4 platform will include a variety of feature sets including integrated L3 caches, memory controllers, multiple I/O-devices such as DUART, GPIO and USB2, security and encryption engines, a queue manager scheduling on-chip events and a SerDes based on-chip high-speed network configurable as multiple Gigabit Ethernet, 10 Gigabit Ethernet, RapidIO or PCI Express interfaces.
The P4080 processor – support for which has been announced by Abaco Systems – is the signature member of the P4 platform. It includes eight e500 cores, each with 32/32 instruction/data L1 caches and 128 kB L2 cache along with 2 MB of L3 cache and dual 64-bit DDR2/DDR3 memory controllers. The P4080’s datapath acceleration subsystem includes hardware acceleration for buffer management, packet parsing and classification, encryption, and regex pattern matching. It supports Ethernet configuration options of up to eight Gigabit (SGMII) or two 10 Gigabit Ethernet (XAUI) plus two Gigabit controllers. The P4080 offers three PCI Express v2.0 ports running at up to 5 GHz and two Serial RapidIO 1.2 interfaces running at up to 3.125 GHz. It also has various other peripheral connectivity such as two USB 2.0 controllers, and is designed to operate below 30 W with eight cores at 1.5 GHz each.
The QorIQ P4080 processor provides concurrent handling of control-plane, data-plane and application layer processing tasks. It is ideal for applications such as switches, enterprise and service provider routers, access and media gateways, base station controllers, radio network controllers (RNCs), and general-purpose embedded computing systems in the networking, telecom, industrial, military and aerospace markets.
Overall performance is enhanced via a Datapath Acceleration Architecture (DPAA) that simplifies multi-core processing by allowing any core to send or receive packets from any Ethernet interface or use any on chip accelerator without using software locks. This virtualized datapath provides improved networking performance and reduces software complexity. The acceleration architecture works in concert with the cores to manage packet routing, security, quality-of-service and deep packet inspection – freeing the cores to focus on value-added services and application processing. The CoreNet fabric also boosts performance by eliminating bus contention, bottlenecks and latency issues associated with shared bus/shared memory architectures that are common in other multicore approaches.
The QorIQ P4080 also offers a new level of platform trust in both boot and runtime environments. Using on-chip boot ROM and fused keys, developers can configure the P4080 to validate a signature over its executable code before allowing it to run. Successful validation authorizes the P4080 to use fused keys to decrypt additional secrets stored in non-volatile memory. At runtime, the e500 hypervisor privilege level, in conjunction with embedded hypervisor software allows system developers to create software partitions with both dedicated and shared resources. The hypervisor and P4080 I/O MMUs enforce partition access controls without relying on the cooperation of the software running in each partition while also simplifying sharing of platform resources through virtualization. Abaco Systems offers three single board computers utilizing the P4080 architecture: PPC10A 6U VME, SBC312 3U VPX and SBC612 6U VPX SBCs.
In summary, products based on the QorIQ platforms from Freescale represent an exciting opportunity for Abaco Systems’ customers, bringing new levels of performance to today’s applications and enabling the development of the sophisticated, demanding applications of tomorrow.
Abaco Systems offers a comprehensive portfolio of 3U and 6U Rugged CPCI, VME, VPX Single Board Computers and CPUs designed to meet almost any high performance computing application need. We also provide an evolutionary path for our processors to allow them to grow and change with new technology, such as Intel’s Core i7 and Freescale’s Power Architectures.
To provide the best product support for our customers, Abaco offers Product Lifecycle Management services for products that require long term support, are no longer recommended for new designs, or are discontinued.