iHawk and ImaGen Product Catalog
Revised January 10, 2011

       iHawk real-time multiprocessors
       ImaGen visual servers
       iHawk and ImaGen summary

Concurrent iHawk multiprocessors and ImaGen visual servers are available with Intel Xeon, Intel Core or AMD Opteron processors in a wide variety of configurations. All systems include Concurrent's RedHawk Linux real-time operating system. iHawk systems also feature Concurrent's Real-Time Clock & Interrupt Module (RCIM) card.

Please contact your local Concurrent sales representative for a quotation customized to meet your exact requirements. The table below provides a summary of iHawk and ImaGen features and options.

iHawk systems are Concurrent's high-performance computer platforms for time-critical simulation, data acquisition, industrial and financial system applications. iHawk symmetric multiprocessors (SMP) feature from one to four Xeon, Core or Opteron CPU sockets and up to 256 GB of memory in a single rackmount or tower enclosure.

iHawk systems offer leading-edge integrated circuit and packaging technology. iHawk SMP platforms run a single copy of Concurrent’s RedHawk Linux real-time operating system. iHawk solutions are also available in ultra-dense, networked blade configurations for applications requiring large numbers of processors.

Real-time Linux Performance and Determinism

At the heart of each iHawk solution is Concurrent’s RedHawk Linux real-time operating system. Compatible with the popular Red Hat Linux distribution, RedHawk features high I/O throughput, fast response to external events, and optimized interprocess communication. RedHawk is the ideal Linux environment for complex real-time applications. RedHawk Linux is based upon a multithreaded, fully preemptible Linux kernel with low-latency enhancements. RedHawk’s true symmetric multiprocessing support includes load-balancing and CPU shielding to maximize determinism and real-time performance in mission-critical solutions. A user-level application can be guaranteed to respond to an external event in less than 15 microseconds on certified platforms.

NightStar Tools

Concurrent real-time Linux supports Concurrent’s powerful set of NightStar development tools. Users can debug, analyze, monitor and tune their real-time applications on iHawk multiprocessor systems or remotely from a desktop PC or laptop. Each tool runs on the iHawk target system non-intrusively, thus preserving the deterministic characteristics of the real-time application.

Real-Time Clock & Interrupt Module

The Real-Time Clock & Interrupt Module (RCIM) is a multifunction PCI or PCIe card designed for time-critical applications that require rapid response to external events. The RCIM includes a synchronized clock readable by multiple iHawk systems, eight programmable timers, and twelve input and twelve output external interrupt lines. An optional, on-board GPS module is available to align the RCIM's synchronized clock to GPS standard time. One GPS-equipped RCIM can synchronize all iHawks in an RCIM chain, or multiple iHawks equipped with the GPS module can operate from a common time base without any cable connections between the systems. POSIX timers based on absolute GPS time can be used to simultaneously start the execution of programs on systems which are not physically connected.

Flexible Packaging

iHawk systems come in standard tower and rackmount enclosures with up to seven integral PCI, PCI-X and PCIe slots and optional PCI/PCIe expansion chassis. For users who require a VME I/O subsystem, an optional PCI-to-VME bridge and chassis is available. iHawk systems can contain up to ten disk drives with optional RAID capability.

The Concurrent family of ImaGen visual servers offers fully-integrated, affordable, high-performance IG solutions for real-time simulation and modeling applications. Powered by Concurrent RedHawk Linux, ImaGen is the ideal platform for truly interactive, virtual reality, landscape, architectural and aerial, ground, and marine simulation.

The ImaGen family provides the most flexible, multichannel Linux-based graphics platforms available today. ImaGen can be custom configured to address a broad range of price/performance requirements from low-end, single-channel systems to large, genlocked, multi-channel and SLI video server solutions. ImaGen delivers the technology needed to rapidly develop and deploy accurate, real-time 3D visual solutions for applications such as civil and military simulation, mission planning, homeland security, scientific and medical visualization, architectural design, energy exploration and entertainment.

ImaGen platforms are complete IG solutions. All required IG components are fully integrated and supported by Concurrent, including COTS imaging channels, monitors, color-matching projectors with edge-blending and curved screen distortion correction, display screens, rackmount chassis, mounting hardware and application software.

COTS Systems And Graphics Boards

ImaGen visual servers are powered by COTS technology for affordable simulation and modeling solutions. Offering the highest levels of computer-generated image quality, fidelity and determinism, ImaGen can be configured with powerful multi-monitor capable graphics controllers, such as those available from NVIDIA and ATI.

Support for Industry Standard Applications

ImaGen supports a wide range of 3D visualization software, such as Presagis Vega Prime, Diamond Visionics' GenesisRTX, OpenSceneGraph, Disti’s GL Studio, Altia Design, OpenGL and OpenGL Performer.

The ImaGen Advantage

Concurrent’s ImaGen family of multi-channel visual servers achieves what was once only possible on large, costly, dedicated visual systems. Concurrent’s ImaGen servers employ COTS technology for highly deterministic modeling display without compromising visual quality or real-time responsiveness. ImaGen offers powerful, expandable and easily upgradeable IG solutions to meet the most difficult technical challenges. ImaGen is the platform of choice for simulation applications that require enhanced realism and the ability to process very large amounts of input data. Concurrent ImaGen servers can be used with Concurrent iHawk host multiprocessors to provide a complete training system platform with the highest levels of computer-generated image quality and fidelity.

Flexible Multi-Channel Rendering

Any number of ImaGen visual servers can be linked together to produce a single, unified output image to any desired level of photorealism. For example, the power of individual ImaGen servers can be assigned to render specific subsets of an image in parallel. The servers support a variety of image combining modes such as sample division for anti-aliasing, time division, image division, eye division and volume division for large rendering applications.

A full range of video synchronization capabilities are also offered. Commercial and military flight, maritime and driving simulators require multiple displays to provide photorealistic views of an environment as seen from a cockpit, window or control panel. ImaGen framelock features provide a seamless viewing experience in these multiple display applications. ImaGen genlock functionality enables synchronization with standard video signal formats or house-sync signals providing a powerful solution for display, video briefing and compositing.

	Platform Model	Packaging	CPU Type	CPU Sockets	Dual Core GHz	Quad Core GHz	6 Core GHz	8 Core GHz	10 Core GHz	12 Core GHz	16 Core GHz	Max Memory (GB)	Disks Note 1	Max Drives	PCIe Slots Note 2	PCI Slots Note 2	On-board Ethernet	Graphics	Graphics Options	Integral Tape Backup Options
	iHawk HQR55	2U Rack	Xeon 5600	1-2		1.6-3.6	2.4-3.46					48	SATA SAS	2	3	1	2	Dual PCIe x16		No
	iHawk HQT55	Tower/ Desktop	Xeon 5600	1-2		1.6-3.6	2.4-3.46					72	SATA SAS	4	4	2	1	Dual PCIe x16		No
	iHawk HQT75	Tower	Xeon 5600	1-2		1.6-3.6	2.4-3.46					192	SATA SAS	5	5	2	1	Dual PCIe x16		No
	iHawk HQR71	2U Rack	Xeon 5500 5600	1-2	2.0	1.86- 3.46	2.66-3.33					192	SATA SAS	6	4	0	4	Matrox G200		Yes
	iHawk HQR61	1U Rack	Xeon 5500 5600	1-2	2.0	1.86- 3.46	2.66-3.33					192	SATA SAS	6	2	0	4	Matrox G200		No
	iHawk HQT61	5U Rack/ Tower	Xeon 5500 5600	1-2	2.0	1.86- 3.46	2.66-3.33					192	SATA SAS	6	5	0	4	Matrox G200		Yes
	iHawk HQ000 ImaGen HQ0G1	1U Rack	Xeon 5500 5600	1-2	2.0	1.86-3.45	2.26-3.33					96	SATA	4	2 1	0 1	2	Dual PCIe x16		No
	ImaGen HQ0G1	1U Rack	Xeon 5400	1-2		2.8						24	SATA	4	2	0	2	PCIe x16	Genlock	No
	iHawk HQ000	4U/7U Industrial Rack	Xeon 5400 5500	1-2		2.0-3.0						32	SATA	6	6 2 18 2	6 16 0 10	2	PCIe x16	Genlock	Yes
	iHawk HQ000 ImaGen HQ0G1	3U/4U Rack/Tower	Xeon 5500 5600	1-2	2.0	1.86-3.45	2.26-3.33					144	SATA SAS	16	3 3 4 4 5 6 7 7	2 3 2 3 1 1 0 2	2	Dual/Quad PCIe x16	Genlock	Yes
	iHawk HQ000 ImaGen HQ0G1	4U GPU Rack	Xeon 5500 5600	1-2	2.0	1.86-3.45	2.26-3.33					288	SATA	2	12	1	4	Eight PCIe x16	Genlock	No
	iHawk HQ000 ImaGen HQ0G1	4U Rack/Tower	Xeon 7500 E7-4800	1-4		1.86	1.86-2.66	1.86- 2.26	2.00- 2.4			256	SATA SAS	8	5 4	0 0	2	Dual PCIe x16 Matrox G200	Genlock	Yes
	iHawk HQ000 ImaGen HQ0G1	5U Rack	Xeon 7500 E7-8800	2-8			1.86-2.00	1.86- 2.26	2.13- 2.26			256	SATA	16	10	0	2	Six PCIe x16 Matrox G200	Genlock	Yes
	iHawk HQ000 ImaGen HQ0G1	4U Rack/Tower	Xeon 7400	1-4			2.13-2.66					96	SATA SAS	8	3	1	2	PCIe x16 ATI ES1000	Genlock	Yes
	iHawk HQR81	2U Rack	Xeon 7500 6500 E7-2800 E7-4800 E7-8800	1-4		1.73-1.86	1.86-2.26	1.86- 2.26				512	SAS	6	6	0	4	Matrox G200		No
	iHawk HQR91	4U Rack	Xeon 7500 E7-4800 E7-8800	2-4		1.86	1.86-2.0	1.86- 2.26				1024	SAS	16	7 10	0 0	4	Matrox G200		No
	iHawk HR000 ImaGen HR0G1	3U/4U Rack/Tower	Opteron 6100 6200	1		3.3		1.8- 3.0		1.7- 2.6	1.6- 2.6	64	SATA SAS	8	3	3	2	PCIe x16 Matrox G200	Genlock	Yes
	iHawk HR000 ImaGen HR0G1	3U/4U Rack/Tower	Opteron 6100 6200	1-2		3.3		1.8- 3.0		1.7- 2.6	1.6- 2.6	128	SATA SAS	8	4 6	2 0	4	PCIe x16 AST2050	Genlock	Yes
	iHawk HR000 ImaGen HR0G1	4U Rack/Tower	Opteron 6100 6200	1-4		3.3		1.8- 3.0		1.7- 2.6	1.6- 2.6	256	SATA SAS	5	4	0	2	Dual PCIe x16 Matrox G200	Genlock	Yes
	iHawk HQ000 ImaGen HQ0G1	3U Rack/Tower	Core i5 Core i7 2nd Gen	1		2.3-3.5						8	SATA	8	3 5 6	3 2 0	2	Dual PCIe x16 Intel HD	Genlock SLI	No
	iHawk HQ000 ImaGen HQ0G1	Tower	Core i7	1		3.06-3.2	3.46					12	SATA	4	3 4 4 3	3 2 1 1	2	Dual PCIe x16	Genlock SLI	No
	iHawk HQ0V1	VME 6U Chassis	Xeon LV	1	2.13	2.13						4	SAS SATA	4	2 PMC	0	2	Onboard		Yes

Note 1 - Available SCSI drives are 73, 146 and 300 GB. Available SAS drives are 73, 146, 300, 400, 500, 750 and 1000 GB. Available SATA drives are 150, 160, 250, 300, 500, 750, 1000 and 2000 GB.
Note 2 - On iHawk systems, one PCI or PCIe slot is occupied by the iHawk's Real-Ttime Clock & Interrupt Module (RCIM) card.

Expansion Chassis and PCI-to-VME Bridges

PCIe-to-PCI

HS006-PE6R4-I -- 6-slot 4U PCIe-to-PCI-X Expansion Chassis, 64-bit

4U rackmount PCIe-to-PCI-X expansion chassis containing six 64-bit, 66 MHz PCI-X slots. Supports bandwidth up to 512 MB/second. Includes 500 watt 115/230 VAC power supply, host controller card and 3 meter cable (RoHS)

Prerequisites: Requires x4 or higher PCIe slot on the host system (HQx or HRx). More than one expansion chassis per system requires home office validation.

HS013-P13R-PE -- 13-slot 4U PCIe-to-PCI Expansion Chassis, 32-bit

4U rackmount PCIe-to-PCI expansion chassis containing thirteen 32-bit, 33 MHz PCI slots. Supports bandwidth up to 132 MB/second. Includes 500 watt 115/230 VAC power supply, host controller card and 1.5 meter cable. (RoHS)

Prerequisites: Requires 1x or higher PCIe slot on the host system (HQx or HRx). More than one expansion chassis per system requires home office validation.

PCI-to-PCI

HS013-P13R-PC -- 13-slot 4U PCI-to-PCI Expansion Chassis, 32-bit

4U rackmount PCI-to-PCI expansion chassis containing thirteen 32-bit, 33 MHz PCI slots. Supports bandwidth up to 132 MB/second. Includes 500 watt 115/230 VAC power supply, host controller card and 1.5 meter cable. DMA I/O not supported on iHawk HR430 systems. (RoHS)

Prerequisites: Requires one 3.3 or 5V PCI slot on the host system (HQx or HRx). More than one expansion chassis per system requires home office validation.

PCIe-to-PCIe/PCI-X

HS018-PE2626 -- 18-slot 4U PCIe-to-PCIe/PCI-X Expansion Chassis

4U rackmount PCIe-to-PCIe/PCI-X expansion chassis containing one x16 PCIe slot with x8 performance, one x8 PCIe slot with x4 performance and sixteen 64-bit, 66 MHz 3.3V PCI-X slots. Includes 850 watt 115/230 VAC power supply, x8 host controller card and 2 meter cable. (RoHS)

Prerequisites: Requires x8 or x16 PCIe slot on the host system (HQx or HRx). Home office quote required to validate I/O configuration. Currently supported only on select motherboards.

PCIe-to-PCIe

HS007-EB7 -- 7-slot 4U PCIe-to-PCIe Expansion Chassis

4U rackmount PCIe-to-PCIe expansion chassis containing seven PCIe slots with x4 performance. Can accomodate x1, x4, x8 and x16 PCIe cards. Includes 550 watt 115/230 VAC power supply, x8 host controller card and 1 meter cable. (RoHS).

Prerequisites: Requires x8 or x16 PCIe slot on the host system (HQx or HRx). Home office quote required to validate I/O configuration. Currently supported only on select motherboards.

PCI-to-VME

HS630-B810 -- PCI-to-VME Bridge Card Set, DMA Master Only

PCI-to-VME bus adapter with DMA and fiber-optic support. Includes PCI and VME adapter cards and RedHawk Linux driver. Supports memory and I/O mapping, master mode DMA only with data rates up to 70 MB/sec. Supports 2 microsecond PIO read/write transactions. (non-RoHS)

Prerequisites: PCI slot in an iHawk system (HQx) with RedHawk Linux, Fiber-optic cable (HS630-C-810-005) and a VME chassis.

Note: VMEbus device drivers not included.

HS630-C-810-005 -- 6-meter Fiber-Optic Bridge Cable for HS630-B810

HS630-B810-202 -- 128 KB dual-port RAM option for PCI-to-VME Bridge

128 KB dual-port RAM installed on the VME adapter of the PCI-to-VME bridge card set

Prerequisites: HS630-B810

HS630-B810-206 -- 8 MB dual-port RAM option for PCI-to-VME Bridge

8 MB dual-port RAM installed on the VME adapter of the PCI-to-VME bridge card set

Prerequisites: HS630-B810

PCIe-to-VME

HS630-C2243 -- Low-latency PCIe-to-VME Bridge Card Set with 2 Meter Cable

Low-latency, programmed I/O, PCIe-to-VME bridge card set. Includes x4 PCIe host card, 6U VME bridge card with two PMC locations, two meter cable and RedHawk Linux driver. Supports 600 nanosecond writes, 1 microsecond reads and up to 1 MB of VME memory space. Interrupt and DMA mode is not supported. (non-RoHS). VME device drivers required.

Prerequisites: 4x PCIe slot on a iHawk system (HQx) with RedHawk Linux and a VME chassis.

Notes: VMEbus device drivers not included.

VME I/O Chassis

HS018-VME3 -- 18-slot 3-row VME I/O Chassis

VME 3-row rackmountable I/O expansion chassis for 6U VME cards. Includes 350W power supply and mounting hardware. 7U high x 19" wide x 8.91" deep.

Prerequisites: HS630-Bx or HS630-C2243 or CE1102-Ax

HS018-VME5 -- 18-slot 5-row VME I/O Chassis

VME 5-row rackmountable I/O expansion chassis for 6U VME cards. Includes 350W power supply and mounting hardware. 7U high x 19" wide x 8.91" deep.

Prerequisites: HS630-Bx or HS630-C2243 or CE1102-Ax

Real-Time Clock & Interrupt Module Options (RCIM II and RCIM III)

RCIM II PCI Card Options

HS002R-GPS -- RCIM II GPS Synchronization Option with 75-foot cable

The RCIM II GPs option is an onboard module for aligning the RCIM's synchronized clock to GPs standard time. POSIX timers based on absolute GPs time can be used to simultaneously start the execution of programs on systems which are not physically connected. One GPs-equipped RCIM can synchronize multiple iHawks connected via RCIM cables, or multiple RCIMs equipped with the GPs option can provide a common time base without any cable connections between iHawk systems.

The GPs option includes a jam-resistant, rooftop, active GPs antenna, antenna transition cable, and a 75-foot RG-59 antenna cable. The antenna is powered by the RCIM board and features a 35 dB preamp and dual by-pass filters. The antenna's threaded socket accepts a 1"-14 straight thread (common marine antenna mount) or a ¾" pipe thread. Antenna must be outdoors.

Prerequisites: iHawk (HQx or HRx) with RCIM II

HS002R-GPS150 -- RCIM II GPS Synchronization Option with 150-foot cable

The RCIM II GPs option is an onboard module for aligning the RCIM's synchronized clock to GPs standard time. POSIX timers based on absolute GPs time can be used to simultaneously start the execution of programs on systems which are not physically connected. One GPs-equipped RCIM can synchronize multiple iHawks connected via RCIM cables, or multiple RCIMs equipped with the GPs option can provide a common time base without any cable connections between iHawk systems.

The GPs option includes a jam-resistant, rooftop, active GPs antenna, antenna transition cable, and a 150-foot RG-59 antenna cable. The antenna is powered by the RCIM board and features a 35 dB preamp and dual by-pass filters. The antenna's threaded socket accepts a 1"-14 straight thread (common marine antenna mount) or a ¾" pipe thread. Antenna must be outdoors.

Prerequisites: iHawk (HQx or HRx) with RCIM II

HS002R-PPM-4 -- RCIM II Oscillator Option

Provides a high accuracy OCXO crystal-controlled oscillator for iHawks equipped with the RCIM II. Increases the accuracy of the RCIM II synchronized clock from 20 parts per million (PPM) to less than 4 PPM. Frequency stability is +/- 0.25 PPM.

Prerequisites: iHawk (HQx or HRx) with RCIM II

HS002R-PPM-43E -- RCIM II Stratum 3E Oscillator Option

Provides a high accuracy Stratum 3E OCXO crystal-controlled oscillator for iHawks equipped with the RCIM II. Increases the accuracy of the RCIM II synchronized clock from 20 parts per million (PPM) to less than 4 PPM. Frequency stability is +/- 10 parts per billion.

Prerequisites: iHawk (HQx or HRx) with RCIM II

HS002R-GPSPPM-4 -- RCIM II GPs And Oscillator Options with 75-foot cable

Provides a high accuracy OCXO crystal-controlled oscillator for iHawks equipped with the RCIM II. Increases the accuracy of the RCIM II synchronized clock from 20 parts per million (PPM) to less than 4 PPM. Frequency stability is +/- 0.25 PPM.

The RCIM II GPs option is an onboard module for aligning the RCIM's synchronized clock to GPs standard time. POSIX timers based on absolute GPs time can be used to simultaneously start the execution of programs on systems which are not physically connected. One GPs-equipped RCIM can synchronize multiple iHawks connected via RCIM cables, or multiple RCIMs equipped with the GPs option can provide a common time base without any cable connections between iHawk systems.

The GPs option includes a jam-resistant, rooftop, active GPs antenna, antenna transition cable, and a 75-foot RG-59 antenna cable. The antenna is powered by the RCIM board and features a 35 dB preamp and dual by-pass filters. The antenna's threaded socket accepts a 1"-14 straight thread (common marine antenna mount) or a ¾" pipe thread. Antenna must be outdoors.

Prerequisites: iHawk (HQx or HRx) with RCIM II

HS002R-GPSPPM-43E -- RCIM II GPs And Stratum 3E Oscillator Options with 75-foot cable

Provides a high accuracy Stratum 3E OCXO crystal-controlled oscillator for iHawks equipped with the RCIM II. Increases the accuracy of the RCIM II synchronized clock from 20 parts per million (PPM) to less than 4 PPM. Frequency stability is +/- 10 parts per billion.

The RCIM II GPs option is an onboard module for aligning the RCIM's synchronized clock to GPs standard time. POSIX timers based on absolute GPs time can be used to simultaneously start the execution of programs on systems which are not physically connected. One GPs-equipped RCIM can synchronize multiple iHawks connected via RCIM cables, or multiple RCIMs equipped with the GPs option can provide a common time base without any cable connections between iHawk systems.

The GPs option includes a jam-resistant, rooftop, active GPs antenna, antenna transition cable, and a 75-foot RG-59 antenna cable. The antenna is powered by the RCIM board and features a 35 dB preamp and dual by-pass filters. The antenna's threaded socket accepts a 1"-14 straight thread (common marine antenna mount) or a ¾" pipe thread. Antenna must be outdoors.

Prerequisites: iHawk (HQx or HRx) with RCIM II

HS002R-CBL-15 -- RCIM II 15-foot Synchronization Cable

15-foot RCIM II synchronization cable for connecting two iHawk systems with RCIM II.

Prerequisites: Any two iHawks (HQx or HRx) with RCIM II

730-6010178-109 -- RCIM I 10-foot Synchronization Cable

10-foot Real-time Clock & Interrupt Module synchronization cable for connecting two iHawk systems with RCIM I.

Prerequisites: Any two iHawks (HQx or HRx) with RCIM I

Note: Synchronization cable connection between different RCIM versions is not supported.

HS002R-EXC-GPS -- Exchange RCIM II For RCIM II with GPS

Upgrade of an RCIM II originally delivered without the GPS option to an RCIM II with the GPS option. Includes GPS antenna as described under model number HS002R-GPS above. Customer must send an RCIM II to Concurrent factory. Concurrent ships a RCIM II with GPS to the customer.

Prerequisites: RCIM II shipped to Concurrent's factory.

RCIM III PCIe Card Options

HS002-3GPS -- RCIM III GPS Option

The RCIM III GPS synchronization option is an on-board module for aligning the RCIM's synchronized clock to GPS standard time. POSIX timers based on absolute GPS time can be used to simultaneously start the execution of programs on systems which are not physically connected. One GPS-equipped RCIM can synchronize multiple systems connected via RCIM cables, or multiple RCIMs equipped with the GPS option can provide a common time base without any cable connections between systems. Antenna required.

Prerequisites: iHawk or ImaGen (HQx or HRx) with RCIM III and GPS antenna (HS002-3GPSANT) or antenna splitter module)

HS002-3PPM-4 -- RCIM III Oscillator Option

Provides a high-accuracy OCXO crystal-controlled oscillator with a frequency stability of +/- 0.25 parts per million.

HS002-3PPM-43E -- RCIM III Stratum 3E Oscillator Option

Provides a high-accuracy Stratum 3E OCXO crystal-controlled oscillator with a frequency stability of +/- 10 parts per billion.

HS002-3GPSPPM-4 -- RCIM III GPS and Oscillator Options

Provides a high-accuracy OCXO crystal-controlled oscillator with a frequency stability of +/- 0.25 parts per million.

The GPS synchronization option is an on-board module for aligning the RCIM's synchronized clock to GPS standard time. POSIX timers based on absolute GPS time can be used to simultaneously start the execution of programs on systems which are not physically connected. One GPS-equipped RCIM can synchronize multiple iHawks connected via RCIM cables, or multiple RCIMs equipped with the GPS option can provide a common time base without any cable connections between iHawk systems. Antenna required.

Prerequisites: iHawk or ImaGen (HQx or HRx) with RCIM III and GPS antenna (HS002-3GPSANT) or antenna splitter module)

HS002-3GPSPPM-43E -- RCIM III GPS and Stratum 3E Oscillator Options

Provides a high-accuracy Stratum 3E OCXO crystal-controlled oscillator with a frequency stability of +/- 10 parts per billion.

The GPS synchronization option is an on-board module for aligning the RCIM's synchronized clock to GPS standard time. POSIX timers based on absolute GPS time can be used to simultaneously start the execution of programs on systems which are not physically connected. One GPS-equipped RCIM can synchronize multiple iHawks connected via RCIM cables, or multiple RCIMs equipped with the GPS option can provide a common time base without any cable connections between iHawk systems. Antenna required.

Prerequisites: iHawk or ImaGen (HQx or HRx) with RCIM III and GPS antenna (HS002-3GPSANT) or antenna splitter module)

HS002-3GPSANT -- RCIM III GPS Antenna with 75-foot cable

Jam-resistant, rooftop, active GPS antenna, antenna transition cable, and a 75-foot RG-59 antenna cable. The antenna is powered by the RCIM III board and features a 35 dB preamp and dual by-pass filters. The antenna's threaded socket accepts a 1"-14 straight thread (common marine antenna mount) or a ¾" pipe thread.

Prerequisites: iHawk or ImaGen (HQx or HRx) with RCIM III and the GPS option

HS002-3GPSANT150 -- RCIM III GPS Antenna with 150-foot cable

Jam-resistant, rooftop, active GPS antenna, antenna transition cable, and a 150-foot RG-59 antenna cable. The antenna is powered by the RCIM III board and features a 35 dB preamp and dual by-pass filters. The antenna's threaded socket accepts a 1"-14 straight thread (common marine antenna mount) or a ¾" pipe thread.

Prerequisites: iHawk or ImaGen (HQx or HRx) with RCIM III and the GPS option

HS002-3CBL-1 -- RCIM III 1-meter Optical Synchronization Cable

1-meter RCIM III optical synchronization cable for connecting two systems.

Note: Synchronization cable connection between different RCIM versions is not supported.

HS002-3CBL-5 -- RCIM III 5-meter Optical Synchronization Cable

5-meter RCIM III optical synchronization cable for connecting two systems.

Note: Synchronization cable connection between different RCIM versions is not supported.

HS002-3CBL-10 -- RCIM III 10-meter Optical Synchronization Cable

10-meter RCIM III optical synchronization cable for connecting two systems.

Note: Synchronization cable connection between different RCIM versions is not supported.

HS002-3CBL-20 -- RCIM III 20-meter Optical Synchronization Cable

20-meter RCIM III optical synchronization cable for connecting two systems.

Note: Synchronization cable connection between different RCIM versions is not supported.

HS002-3CBL-30 -- RCIM III 30-meter Optical Synchronization Cable

30-meter RCIM III optical synchronization cable for connecting two systems.

Note: Synchronization cable connection between different RCIM versions is not supported.

Options for RCIM II and RCIM III

730-1840042-901 -- RCIM Loopback Plug

730-1840042-902 -- RCIM External Interrupt Plug

Plug for connecting a system to an interrupt source or a 2nd system.

730-1840042-903 -- RCIM External Interrupt Plug for 2nd System

Plug for connecting a system to a system equipped with 730-1840042-902.

PCIe I/O Cards

CP-PWM-1012 -- 12-line Pulse Width Modulation (PWM) PCIe card

The CP-PWM-1012 autonomously generates TTL pulse width modulated signals with high accuracy. With a timing resolution of 50 ns and the ability to program sine frequencies, PWM frequencies, dead-band and duty cycle in real time, the CP-PWM-1012 card is ideal for use in hardware-in-the-Loop (HIL) systems. Provides 12 digital output lines with 5V TTL output (TI 74ABT16240 driver). The card features 34K logical FPGA elements and high-speed PLL-generated clocks at 100MHz+. Multiple cards are supported per system. Occupies a PCIe x1 slot or higher. Supported by SIMulation Workbench.

Specifications:

• FPGA-based Pulse Width Modulation (PWM) board
• TTL outputs
• 3 modes of operation (12 outputs)
  • 2 channel, 3 phase complementary PWM outputs
  • 1 channel, 6 phase complementary PWM outputs
  • 12 channel PWM outputs
• 12-bit PWM signal resolution
• Programmable sine wave frequency, PWM frequency, duty cycle and dead band
• 66 MHz board frequency
• 20 MHz PWM base frequency i.e. timing resolution of 50 ns
• External Connectors: Molex LFH-60
• Power Consumption: ~5 watts
  

Prerequisites: WC-PWM-1012 driver.

WC-PWM-1012 -- RedHawk Linux Driver for PWM PCIe card

RedHawk Linux Driver for PWM PCIe card.

Prerequisites: CP-PWM-1012.

CX-LFH60 -- PWM/RCIM Interface Assembly

Includes DB25 male and female right angle terminal board assemblies.

Prerequisites: CP-PWM-1012 or RCIM III.

Analog Input Card

CP-AD3224-DS -- 32-channel, 24-bit Delta-Sigma analog input PCIe card

32-channel, 24-bit Delta-Sigma PCIe analog input card with 200 KSPS sample rate per channel.

Prerequisites: WC-AD3224-DS driver.

WC-AD3224-DS -- RedHawk Linux Driver for 32-channel, 24-bit analog input PCIe card

RedHawk Linux Driver for 32-channel, 24-bit Delta-Sigma analog input PCIe card

Prerequisites: CP-AD3224-DS.

 SIGnal Workbench Programmable Signal Conditioning

Signal Conditioning Chassis

HS000-SIGWB-08 -- SIGnal Workbench Chassis for up to 8 Programmable Signal Conditioning Cards

4U SIGnal Workbench rackmount chassis containing signal conditioning backplane, Ethernet backplane controller card, 250W power supply and internal cabling for support of one to eight 4-channel programmable signal conditioning cards. Includes SIGnal Workbench Control API for RedHawk Linux.

Prerequisites: iHawk host computer system (HQx or HRx) with an Ethernet port, one to eight programmable signal conditioning cards (CQ9460-04), one or more analog input cards (CS-x) and SIGnal Workbench cables for connecting analog input card(s) to the signal conditioning chassis (CX-x).

Note: 1U of empty rack space above the chassis is required for proper airflow.

HS000-SIGWB-16 -- SIGnal Workbench Chassis for up to 16 Programmable Signal Conditioning Cards

4U SIGnal Workbench rackmount chassis containing signal conditioning backplane, Ethernet backplane controller card, 250W power supply and internal cabling for support of one to sixteen 4-channel programmable signal conditioning cards. Includes SIGnal Workbench Control API for RedHawk Linux.

Prerequisites: iHawk host computer system (HQx or HRx) with an Ethernet port, one to sixteen programmable signal conditioning cards (CQ9460-04), one or more analog input cards (CS-x) and SIGnal Workbench cables for connecting analog input card(s) to the signal conditioning chassis (CX-x).

Note: 1U of empty rack space above the chassis is required for proper airflow.

CQ9760-DDP -- Thermocouple Digital Data Port Card

Cold junction temperature data port card for thermocouple signal conditioning. One card required per chassis for monitoring all thermocouple connector cold junction temperatures.

Prerequisites: Signal Conditioning chassis (HS000-SIGWB-xx).

Signal Conditioning Cards

CQ9460-04 -- 4-channel Programmable Signal Conditioning Card

3U 4-channel programmable signal conditioning card with each channel configurable as current source, voltage source, AC coupling or DC coupling. Bridge completion and ICP is selectable on each channel. Detailed specifications on the signal conditioning card can be found at real-time.ccur.com/products_rt_signalworkbench.aspx under the Specifications tab.

Prerequisites: SIGnal Workbench chassis (HS000-SIGWB-x)

CQ9760-04TJ -- 4-channel Thermocouple Signal Conditioning Card, Type J

3U 4-channel thermocouple signal conditioning card with type J miniature PCC connectors. Each connector has individually-monitored cold junction temperature.

Prerequisites: SIGnal Workbench chassis (HS000-SIGWB-x) and thermocouple digital data port card (CQ9760-DDP).

CQ9760-04TK -- 4-channel Thermocouple Signal Conditioning Card, Type K

3U 4-channel thermocouple signal conditioning card with type K miniature PCC connectors. Each connector has individually-monitored cold junction temperature.

Prerequisites: SIGnal Workbench chassis (HS000-SIGWB-x) and and thermocouple digital data port card (CQ9760-DDP).

Analog Input Cables

CX-GS-24DSI32-SD -- SIGnal Workbench cable for 32-channel, 24-bit Delta-Sigma Analog Input Card

SIGnal Workbench cable for connecting a 32-channel 24-bit Delta-Sigma PCI or PCIe analog input card to a signal conditioning chassis.

Prerequisites: CS-GS-24DSI32-SD or CP-AD3224-DS.

CX-GS-16AI64SS -- SIGnal Workbench cable for 64-channel, 16-bit, Analog Input Card

SIGnal Workbench cable for connecting a General Standards 64-channel 16-bit simultaneous sampling analog input card to a signal conditioning chassis.

Prerequisites: CS-GS-66-16AI64SSA or CS-GS-16AI64SSC or CS-GS-16AI64SSC-E

CX-GS-16AI64LL-2 -- SIGnal Workbench cable for low-latency 64-channel, 16-bit, Analog Input Card

SIGnal Workbench cable for connecting a General Standards 64-channel 16-bit low-latency analog input card to a signal conditioning chassis.

Prerequisites: CS-GS-16AI64LL-2

Interface Cables

CX-CBL-HSI-68-03 -- SIGnal Workbench 3-foot 68-pin cable for interface to host system A/D

CX-CBL-HSI-68-06 -- SIGnal Workbench 6-foot 68-pin cable for interface to host system A/D

CX-CBL-HSI-68-10 -- SIGnal Workbench 10-foot 68-pin cable for interface to host system A/D

Signal Conditioning Products with Fault Insertion

Monitors

VG8719 -- 19" LCD Flat Panel Monitor

19" LCD flat panel monitor with an optimum resolution of 1280 x 1024, 300 cd/m2 brightness and 2000:1 dynamics contrast ratio (typical). Viewing angle 170° horizontal and 160° vertical. Includes monitor cable.

Prerequisite: HQx or HRx or CM050x.

Note: Available only with iHawk or Power Hawk system purchase.

VG8722 -- 22" LCD Flat Panel Monitor

22" LCD flat panel monitor with an optimum resolution of 1920 x 1080, 300 cd/m2 brightness and 20,000:1 dynamic contrast ratio (typical). Viewing angle 170° horizontal and 160° vertical. Includes monitor cable.

Prerequisite: HQx or HRx or CM050x.

Note: Available only with iHawk or Power Hawk system purchase.

VG8724 -- 24" LCD Flat Panel Monitor

24" LCD flat panel monitor with an optimum resolution of 1920 x 1080, 300 cd/m2 brightness and 20,000:1 dynamic contrast ratio (typical). Viewing angle 170° horizontal and 160° vertical. Includes monitor cable.

Prerequisite: HQx or HRx or CM050x.

Note: Available only with iHawk or Power Hawk system purchase.

HQ003-KM-USB -- USB Keyboard And Mouse Kit

Generic USB keyboard and mouse kit for iHawk USB systems.

Prerequisite: iHawk with USB console port.

Service Upgrade Options

HQ-RTFP -- Return-to-Factory Priority (RTFP) Service Upgrade

Return-to-Factory Priority (RTFP) service is designed for customers who need fast turnaround time for parts repair or replacement. The procedures and terms of RTFP service are the same as for RTF service except that the turnaround time is 3 to 5 working days. Concurrent home office approval is required prior to quoting of RTFP. In addition, with RTFP service, a customer can request on-site support when needed. RTFP on-site service offers 48-hour response at a fixed fee per visit. A customer purchase order is required prior to an on-site visit.

Prerequisite: RTF support quoted by HWSW-MM or HWSW-YM or HW-MM or HW-YM.

WU1220-LDV -- NightStar For RedHawk, Single CPU System, Node-locked

Provides a single-user node-locked NightStar tools package license on a single-CPU system with any number of cores. NightStar is a set of non-intrusive, GUI-based, real-time tools that includes the NightTrace event analyzer, NightView source-level debugger, NightSim application scheduler, NightProbe data monitor, NightTune system and application tuner, RedHawk Linux Frequency-Based Scheduler (FBS) and the Datamon data probing API.

Prerequisite: iHawk or ImaGen single-CPU socket system running RedHawk Linux (HQx-1x or HRx-1x)

WU1220-LDV2 -- NightStar For RedHawk, Dual CPU System, Node-locked

Provides a single-user node-locked NightStar tools package license on a dual-CPU system with any number of cores. NightStar is a set of non-intrusive, GUI-based, real-time tools that includes the NightTrace event analyzer, NightView source-level debugger, NightSim application scheduler, NightProbe data monitor, NightTune system and application tuner, RedHawk Linux Frequency-Based Scheduler (FBS) and the Datamon data probing API.

Prerequisite: iHawk or ImaGen dual-CPU socket system running RedHawk Linux (HQx-2x or HRx-2x)

WU1220-LDV4 -- NightStar For RedHawk, Quad CPU System, Node-locked

Provides a single-user node-locked NightStar tools package license on a quad-CPU system with any number of cores. NightStar is a set of non-intrusive, GUI-based, real-time tools that includes the NightTrace event analyzer, NightView source-level debugger, NightSim application scheduler, NightProbe data monitor, NightTune system and application tuner, RedHawk Linux Frequency-Based Scheduler (FBS) and the Datamon data probing API.

Prerequisite: iHawk or ImaGen quad-CPU socket system running RedHawk Linux (HQx-4x or HRx-4x)

WU1220-LDV8 -- NightStar For RedHawk, Eight CPU System, Node-Locked

Provides a single-user node-locked NightStar tools package license on an eight-CPU system with any number of cores. NightStar is a set of non-intrusive, GUI-based, real-time tools that includes the NightTrace event analyzer, NightView source-level debugger, NightSim application scheduler, NightProbe data monitor, NightTune system and application tuner, RedHawk Linux Frequency-Based Scheduler (FBS) and the Datamon data probing API.

Prerequisite: iHawk or ImaGen 8-CPU socket system running RedHawk Linux (HQx-8x or HRx-8x))

WU1200-LDVF -- NightStar For RedHawk Floating Network License

Provides a single-user NightStar tools package floating license on an iHawk system or a Red Hat PC that will serve as a license manager for a network. NightStar is a set of non-intrusive, GUI-based, real-time tools that includes the NightTrace event analyzer, NightView source-level debugger, NightSim application scheduler, NightProbe data monitor, NightTune system and application tuner, RedHawk Linux Frequency-Based Scheduler (FBS) and the Datamon data probing API.

Prerequisite: iHawk or ImaGen system running RedHawk Linux (HQx or HRx)

WU1221-LDV -- NightStar for RedHawk, Additional User License

Provides a NightStar tools additional user license for a user connected to an iHawk system via an Ethernet LAN. Adds one user to either a node-locked NightStar system or a floating network NightStar license manager.

Prerequisite: NightStar node-locked (WU1220-LDVx) or network license (WU1200-LDVF) on an iHawk system. X Window client software on the user PC.

WU2200-LDV -- NightStar Tools hosted on a Red Hat PC

This product allows an user to execute the NightStar tools on a standard Red Hat PC and debug programs on an RedHawk Linux target system running across an Ethernet LAN. This package consists of the NightView source-level debugger, NightSim frequency-based scheduler, NightProbe data monitor, NightTrace event analyzer, NightTune performance analyzer and Datamon data probing API. One package must be purchased for each PC running the NightStar tools.

Prerequisites: NightStar tools (WU1220-LDVx or WU1200-LDVF) on an iHawk or ImaGen and an Intel-based PC with at least 64 MB of memory running Red Hat Linux 8.0 or higher. An Ethernet LAN connection to the iHawk target system is required for a live debugging session.

Note: Equivalent to a NightStar tools additional user license (WU1221-LDV) except that the tools and compiler execute on the PC rather than on the iHawk target system.

WU-NSTAR-FL -- NightStar LX Floating License Option

This option allows multiple users of NightStar LX tools to run simultaneously on any number of systems on single network. The number of simultaneous users allowed is equal to the number of NightStar LX tool licenses purchased with the floating license option.

Prerequisites: NightStar LX tools (WU-NSTAR-RHx)

WU1210-JL -- RedHawk Linux FBS for 32-bit iHawk Systems

Provides the Frequency-Based Scheduler (FBS) and Performance Monitor on iHawk systems that do not contain the NightStar Tools. Allows the execution of applications developed using NightSim on a run-time system.

Prerequisite: iHawk or ImaGen system (HQx) with 32-bit RedHawk Linux

WU1210-JA -- RedHawk Linux FBS for 64-bit iHawk Systems

Provides the Frequency-Based Scheduler (FBS) and Performance Monitor on iHawk systems that do not contain the NightStar Tools. Allows the execution of applications developed using NightSim on a run-time system.

Prerequisite: iHawk or ImaGen system (HQx or HRx) with 62-bit RedHawk Linux

Language Products

MAXAda

WL1507-L -- MAXAda Development Environment for RedHawk Linux - Single User License

The MAXAda Development Environment is a set of integrated development tools for the production of Ada95 applications. Based on certified technology MAXAda includes a compiler, automated build utilities, library management system, the Ada Real-time Multiprocessor System (ARMS), real-time task monitor, real-time tracing, real-time data monitoring, Ada95 Annex implementations (A: Predefined Language Environment, B: Interface to Other Languages, C: Systems Programming, and D: Real-time Systems), and selected bindings (POSIX.1, POSIX.5, timers, sockets, real-time services). Provides a single-user license.

Prerequisite: iHawk system (HQx or HRx) running RedHawk Linux or a Red Hat Linux system for iHawk targeting

Note: When targeting iHawk applications from a Red Hat Linux PC, the Red Hat versions on the PC and iHawk must be same.

WL1508-L -- MAXAda for Linux Systems - Additional User License

Provides additional user license for MAXAda.

Prerequisite: WL1507-Lx

WL1590-L -- AXI for RedHawk Systems- Motif/Xt/Xlib Bindings

AXI for MAXAda is the Ada-to-X Window System interface providing access to over 500 functions, libraries, and procedures, in Xlib, XT, X Extensible Library, Miscellaneous Utilities, the Motif widget set and the Motif Resource Manager. Supports Ada tasking, "unrestricted subclassing" of widgets, and mixed language programming. Utilizes a conventional naming scheme for easy use by X and Motif programmers. An interface utilizing STARS naming conventions is also provided. Products include the compiled form of Ada packages that define the interfaces, runtime libraries, and documentation. Includes source code for Ada package specifications.

Prerequisite: iHawk system (HQx) running RedHawk Linux

Note: Special quotation required for support on iHawk 64-bit systems.

WL1591-L -- AXI for Linux Systems - Additional User License

Provides additional user license for AXI.

Prerequisite: WL1590-Lx

FORTRAN 77

WL1211-L -- FORTRAN 77 for RedHawk Linux, Single User License

FORTRAN 77 for RedHawk Linux systems conforms to the full language definition of the ANSI FORTRAN X3.9-1978 standard. Numerous extensions to the language are also provided to enhance programmability and application portability. Specific enhancements include MIL-STD 1753 and extensions commonly found in Encore®, DEC VAX® and Harris VOS (H-Series) FORTRAN Includes compiler and run-time libraries. Note: Not supported on systems with greater than 32 processor cores.

Prerequisite: iHawk system (HQx or HRx)

WL1212-L -- FORTRAN 77 Additional User License

One additional user for FORTRAN 77 on an iHawk system.

Prerequisite: WL1211-L

High-Performance Math Package

WL1900-L -- RedHawk High-performance Math Package

The RedHawk High-performance Math Package provides the open source ATLAS and LAPACK math libraries. The package is streamlined and optimized for installation and execution on Concurrent iHawk Intel and Opteron-based systems running RedHawk Linux. The libraries are callable from any language and are tunable for a variable number of CPUs. A CPU Affinity API provides for user control of CPU allocation for enhanced real-time performance.

ATLAS is the Automatically Tuned Linear Algebra Software open source product available from http://math-atlas.sourceforge.net. It implements the industry standard BLAS library routines (http://www.netlib.org/blas). LAPACK is an open source Linear Algebra Package (http://www.netlib.org/lapack) that uses the BLAS primitives to solve more complex problems such as simultaneous equations. ATLAS provides the Level 1 (vector-vector), Level 2 (matrix-vector), and Level 3 (matrix-matrix) BLAS routines and a subset of LAPACK routines. The Level 3 routines are threaded to take advantage of multiple processors. The full LAPACK can be integrated with ATLAS. ATLAS’s installation process automatically tunes the package for the system it is being installed on.

Supported on RedHawk 5.4 and earlier. Special quotation required for support on RedHawk 6.0.

Prerequisite: iHawk System (HQx or HRx) with RedHawk Linux 5.4 or earlier.

RedHawk Linux Cluster Software

WA9017-L -- RedHawk Cluster Manager

The RedHawk Cluster Manager allows users to install and configure Concurrent iHawk systems as a highly-integrated, high-performance computing cluster.

A cluster contains a host system and multiple nodes. Each node contains its own CPUs, memory, operating system and I/O subsystem and is capable of communicating with other systems via Ethernet LAN. Clusters can be used to run parallel programs for time-intensive computational applications, such as simulations and model analysis. Nodes can contain a hard drive or be completely diskless using the standard Stateless Linux support. Any Concurrent iHawk can be configured as a node in the cluster.

RedHawk Cluster Manager includes a mechanism for easily installing multiple nodes of a cluster with the same version of RedHawk Linux.

Prerequisites: Two or more Concurrent iHawk or ImaGen systems with RedHawk Linux linked by an Ethernet LAN. 12 GB of free disk space is required on /tftpboot/yaci for creating the cluster file system image.

Note: One copy of WA9017-L must be purchased for each cluster's host (master) system.

WA9018-L -- RedHawk Global File System (GFS)

GFS is a common storage file system that allows all computers on a network to locally maintain an identical, shared block device. GFS reads and writes to the block device like a local filesystem. Changes made to the filesystem on one computer are immediately written to all other computers in the cluster. GFS uses a lock module to allow the computers to maintain I/O consistency. GFS provides for fast local reads at the expense of write performance. RedHawk GFS is based on Red Hat GFS 6.1. RedHawk GFS includes OpenAIS cluster framework services.

Prerequisites: Two or more Concurrent iHawk or ImaGen systems running 64-bit RedHawk Linux linked by an Ethernet LAN.

Note: Special quotation required for GFS for RedHawk version 5.2 and above.

WA9021-L -- RedHawk GPUDirect Software

GPUDirect allows network adapters to directly read and write CUDA host memory thus eliminating unnecessary system memory copies and CPU overhead. GPUDirect can result in significant performance improvements in data transfer times on NVIDIA Tesla and Quadro products.

Prerequisites: Two or more Concurrent iHawk or ImaGen systems running 64-bit RedHawk Linux 6.0.1 or above linked by a Mellanox InfiniBand network connection.

SIMulation Workbench Real-Time Modeling Software

WU8020-L -- SIMulation Workbench Base License

SIMulation Workbench (SWB) provides a complete framework to develop and execute real-time hardware-in-the-loop and man-in-the-loop simulations. SWB’s powerful GUI allows users to conveniently configure, start, stop, record and play back simulation runs. SWB provides fast, direct shared memory access to all parameters and signals needed by your simulation. SWB’s in-memory design optimizes performance and data conversion speed. SWB supports multi-rate, muti-model simulations running on multi-core processor platforms.

SWB is built upon a client-server architecture. A real-time server provides the run-time environment for simulation while network-based GUI clients control and display simulation activities. Real-time performance is maximized because the GUI clients run outside of the simulation server. SIMulation Workbench fully supports Simulink models developed using The MathWorks’ products.

SWB includes a memory-resident database called RTDB that can be accessed by all simulator processes. RTDB stores the definition of all data items used by the simulation such as model variables and their mapping to I/O boards and model parameters. RTDB is configured externally via a GUI and provides for complete I/O independence. All the information necessary to configure I/O points and data bus protocols and to read, convert, write and store simulation variables is maintained in the database.

Prerequisites:

• iHawk system (HQx or HRx)
• RedHawk Frequency-Based Scheduler (WU1210-JL or WU1210-JA or WU1200-LDVF or WU1220-Lx).
• One or more SWB-supported I/O cards and drivers listed in the table below. A special quote is required for any I/O card not listed below.
• One SWB I/O module license (ICS-SWB-xxx) for each I/O card and add-on GUI feature to be used on the system.
• Non-Recurring Charges (NRC-xxx) for any I/O driver not currently supported under the quoted version of RedHawk
• MathWorks MATLAB/Simulink and MATLAB/Simulink Coder for systems that will run Simulink models.
• System integration (730-INT-MOT) applied to all items except non-recurring charges.
  

  Notes: 1) A graphics card is highly recommended for iHawk systems that will run MathWorks products. 2) SWB supports a subset of the following ASAM standard: AE HIL version V.1.0.0 -- Model Access Port.

The table below provides reference information on I/O cards and drivers supported by SWB. I/O card support on 64-bit systems is as defined below.

SIMulation Workbench I/O	I/O Card Model Number	I/O Driver Model Number	I/O Module License (one per card)	32/64 bit Support
AFDX	CS-AM-API-FDX-2	WCS-AM-API-FDX	ICS-SWB-210	32
ARINC 429	CS-DD-42916I3-300	WCS-DD-42916I3	ICS-SWB-211	32
ARINC 429 LX	via RIQ	via RIQ	ICS-SWB-211	32/64
CAN	CS-ES-CAN-405-x	WCS-ES-CAN-405	ICS-SWB-212	32
Analog Input	CS-GS-16AI64SSA-2	WCS-GS-16AI64SS	ICS-SWB-213	32/64
	CS-GS-16AI64LL-2	WCS-GS-16AI64LL	ICS-SWB-213	32/64
Multifunction I/O	CS-GS-16AIO-41	WCS-GS-16AIO	ICS-SWB-213	32/64
	CS-NI-PCI-60xxE	Included in SWB	ICS-SWB-222	32/64
Analog Output	CS-GS-16AO12x	WCS-GS-16AO12	ICS-SWB-214	32/64
	CS-GS-16AO16x	WCS-GS-16AO16	ICS-SWB-214	32/64
	CS-UEI-PD2-AOx	WCS-UEI-PD2-AO	ICS-SWB-220	32
	CS-NI-PCI-6703	Included in SWB	ICS-SWB-222	32/64
	CS-NI-PCI-6704	Included in SWB	ICS-SWB-222	32/64
Digital	CS-NI-PCI-DIO-96	WCS-NI-PCI-DIO-96	ICS-SWB-215	32/64
	CS-NI-PCI-6509	WCS-NI-PCI-6509	ICS-SWB-215	32/64
	CS-AL-P7256	WCS-AL-P7256	ICS-SWB-215	32
	CS-PAS-2080-000	WCS-PAS-2080	ICS-SWB-224	32/64
MIL-STD-1553	CS-DD-67106K-x	WCS-DD-67106K	ICS-SWB-225	32
Pulse Generator	CS-OME-TMC12	WCS-OME-TMC12	ICS-SWB-228	32
Pulse Width Modulation	CP-PWM-1012	WC-PWM-1012	ICS-SWB-238	32
RVDT/LVDT	CS-NA-76CL1-x	WCS-NA-76CL1	ICS-SWB-216	32/64
Relay	CS-PIC-50-110-x	WCS-PIC-50-110	ICS-SWB-226	32
Resistor Simulator	CS-PIC-50-295	WCS-PIC-50-295	ICS-SWB-227	32/64
	PAS 2581 via RIQ	via RIQ	ICS-SWB-232	32
Serial	CS-MX-CP1x	WCS-MX-CP	ICS-SWB-219	32/64
	FASTCOM 422/4-335	via RIQ	ICS-SWB-219	32/64
Resolver	CS-NA-76CS1-x	WCS-NA-76CS1	ICS-SWB-217	32/64
FlexRay	CS-TZ-FLEX-PCI	WCS-TZ-FLEX-PCI	ICS-SWB-218 with ICS-SWB-203	32
	CS-EB-5100	WCS-EB-5100	ICS-SWB-221 with ICS-SWB-203	32
Counter/Timer	CS-NI-PCI-6602	RIQ needed for NI DAQmx	ICS-SWB-222	32
Reflective Memory	CS-VMIPCI-5565-xxx	WCS-VMIPCI-5565	ICS-SWB-223	32
	CS-SYS-GPCI-20	WCS-SYS-GPCI	ICS-SWB-223	32
	CS-GE-PCI-5565-x	WCS-GE-PCI-5565	ICS-SWB-223	32
EtherCAT Master	via RIQ	via RIQ	ICS-SWB-236	32
EtherCAT Slave	via RIQ	via RIQ	ICS-SWB-237	32
VME Analog Input	CS-VMIC-3122A-x	WCS-VMIC-3122	ICS-SWB-229	32
VME Analog Output	CS-VMIC-4132-011	WCS-VMIC-4132	ICS-SWB-230	32
VME Relay	CS-VMIC-2210-100	WCS-VMIC-2210	ICS-SWB-231	32
VME DIO	CS-PAS-9795DIO	WCS-PAS-9795	ICS-SWB-233	32
VME RVDT/LVDT	NAI64DL1 via RIQ	via RIQ	ICS-SWB-234	32
VME Waveform Generator	CS-HT-V370	WCS-HT-V370	ICS-SWB-235	32
VME Frequency Generator	CS-PAS-9782-000	via RIQ	ICS-SWB-239	32

Detailed information on the above supported I/O cards can be found here.

WU8020-64 -- SIMulation Workbench 64-bit option

Substitutes shipment of SIMulation Workbench 64-bit in place of the 32-bit version.

Prerequisites: WU8020-L and an iHawk system (HQx or HRx) with 64-bit RedHawk Linux

Note: 64-bit I/O support many be limited. Please check with the home office for details on 64-bit I/O support.

SIMulation Workbench Support Licenses

ICS-SWB-201 -- SWB Additional Client GUI

Provides licensing for an additional simultaneous GUI client user on a SWB system. (One user is provided by WU8020-L and WU8020-LRT)

ICS-SWB-203 -- FIBEX FlexRay Configuration Support

Provides licensing for FIBEX FlexRay use on a SWB system.

ICS-SWB-210 -- SWB AFDX I/O Module License

Provides licensing for one CS-AM-API-FDX-2 AFDX card on a SWB system. One license required per card.

ICS-SWB-211 -- SWB ARINC I/O Module License

Provides licensing for one CS-DD-42916I3-300 ARINC card on a SWB system. One license required per card.

ICS-SWB-212 -- SWB CAN I/O Module License

Provides licensing for one CS-ES-CAN-405-x CAN I/O card on a SWB system. One license required per card.

ICS-SWB-213 -- SWB Analog Input I/O Module License

Provides licensing for one CS-GS-16AI64SSA-2, CS-GS-16AIO-41, CS-GS-16AI64LL-2 or CS-GS-16AIO-41 analog input or multifunction card on a SWB system. One license required per card.

ICS-SWB-214 -- SWB General Standards Analog Output I/O Module License

Provides licensing for one CS-GS-16AOx analog output card on a SWB system. One license required per card.

ICS-SWB-215 -- SWB Digital I/O Module License

Provides licensing for one CS-NI-PCI-DIO-96 or Adlink 7256 digital I/O card on a SWB system. One license required per card.

ICS-SWB-216 -- SWB RVDT/LVDT I/O Module License

Provides licensing for one CS-NA-76CL1-x RVDT/LVDT card on a SWB system. One license required per card.

ICS-SWB-217 -- SWB Resolver I/O Module License

Provides licensing for one CS-NA-76CS1-x Resolver card on a SWB system. One license required per card.

ICS-SWB-218 -- SWB FlexRay I/O Module License

Provides licensing for one CS-TZ-FLEX-PCI FlexRay card on a SWB system. One license required per card.

ICS-SWB-219 -- Serial I/O Module License

Provides licensing for one CS-MX-CPx or FASTCOM 422/4-335 serial card on a SWB system. One license required per card.

ICS-SWB-220 -- SWB UEI Analog Output I/O Module License

Provides licensing for one CS-UEI-PD2-xxx analog output card on a SWB system. One license required per card.

ICS-SWB-221 -- SWB FlexRay I/O Module License

Provides licensing for one EB 5100 FlexRay card on a SWB system. One license required per card.

ICS-SWB-222 -- SWB NI Device I/O Module License

Provides licensing for one CS-NI-PCI-60xxE multifunction card, CS-NI-PCI-6602 counter/timer card or CS-NI-PCI-6602 analog output card on a SWB system. One license required per card.

ICS-SWB-223 -- SWB Reflective Memory I/O Module License

Provides licensing for one CS-VMIPCI-5565-xxx or CS-SYS-GPCI-20 reflective memory card on a SWB system. One license required per card.

ICS-SWB-224 -- SWB DIO Edge Detection I/O Module License

Provides licensing for one CS-PAS-2080-000 DIO edge detection card on a SWB system. One license required per card.

ICS-SWB-225 -- SWB MIL-STD-1553 I/O Module License

Provides licensing for one DDC BU67106K MIL-STD-1553 card on a SWB system. One license required per card.

ICS-SWB-226 -- SWB Relay I/O Module License

Provides licensing for one Pickering 50-110 relay card on a SWB system. One license required per card.

ICS-SWB-227 -- SWB Resistor Simulator I/O Module License

Provides licensing for one Pickering 50-295 resistor simulator card on a SWB system. One license required per card.

ICS-SWB-228 -- SWB Pulse Generator I/O Module License

Provides licensing for one Omega TMC12 pulse generator card on a SWB system. One license required per card.

ICS-SWB-229 -- SWB VME Analog Input I/O Module License

Provides licensing for one CE3122-x VME analog input card on a SWB system. One license required per card.

ICS-SWB-230 -- SWB VME Analog Output I/O Module License

Provides licensing for one CS-VMIC-4132-011 VME analog output card on a SWB system. One license required per card.

ICS-SWB-231 -- SWB VME Relay I/O Module License

Provides licensing for one CS-VMIC-2210-100 VME relay card on a SWB system. One license required per card.

ICS-SWB-232 -- SWB Resistor Simulator I/O Module License

Provides licensing for one PAS 2581 resistor simulator card on a SWB system. One license required per card.

ICS-SWB-233 -- SWB VME Digital I/O Module License

Provides licensing for one CS-PAS-9795DIO VME digital I/O card on a SWB system. One license required per card.

ICS-SWB-234 -- SWB VME RVDT/LVDT I/O Module License

Provides licensing for one NAI64DL1 VME RVDT/LVDT card on a SWB system. One license required per card.

ICS-SWB-235 -- SWB VME Arbitrary Waveform Generator I/O Module License

Provides licensing for one CS-HT-V370 VME arbitrary waveform generator card on a SWB system. One license required per card.

ICS-SWB-236 -- SWB EtherCAT Master I/O Module License

Provides licensing for one EtherCAT master device on a SWB system. One license required per device.

ICS-SWB-237 -- SWB EtherCAT Slave I/O Module License

Provides licensing for one EtherCAT slave device on a SWB system. One license required per device.

ICS-SWB-238 -- SWB Pulse Width Modulation I/O Module License

Provides licensing for one Concurrent CP-PWM-1012 card on a SWB system. One license required per card.

ICS-SWB-239 -- SWB Frequency Generation I/O Module License

Provides licensing for one CS-PAS-9782-000 VME frequency generation card on a SWB system. One license required per card.

Laboratory Workbench High Speed Data Acquisition Software

WU8000-L -- Laboratory Workbench Software

Laboratory Workbench™ (LWB) is a high-performance GUI data acquisition software package for Concurrent iHawk™ Linux®-based multiprocessing systems. LWB's easy-to-use, point-and-click interface allows users to acquire, process, display and record analog data without the need for programming. LWB is an X/Motif-based application that runs on Concurrent's RedHawk™ Linux real-time operating system. A set of symbolic icons and graphic displays represent data acquisition devices, file operations, signal processing tasks and display options. With LWB visual controls, users can quickly configure an operational data acquisition and signal processing system. LWB includes Concurrent's SP-50 Data Acquisiton And Control Software library. LWB PDF Brochure

Prerequisites: iHawk system (HQx). General Standards 16-bit analog I/O card (CS-GS-16AIO-x or CS-GS-16AI64SSAx) or D-TACQ Solutions ACQ32PCI 16-bit analog I/O card.

Note: Special quotation required for support on RedHawk 2.3.

System Integration

730-INT-MOT -- System Integration

System Integration provides for factory or field integration by Concurrent of all hardware and software components as a complete system. Includes successful execution of all applicable hardware diagnostics, device drivers and factory test procedures.

Note: iHawk system products (HQx and HRx) and Concurrent-manufactured software products (WU1x, WU2x and WL1x) do not incur a system integration charge. All other hardware and software products are subject to System Integration.

Rackmount Enclosures and Monitor/Keyboards

Custom-configurable 19" rackmount cabinets are available for iHawk and ImaGen systems. Cabinets can be configured with a choice of Ethernet switches, 1U monitor/keyboard options, KVM switches and PDUs.