iHawk and ImaGen Product Catalog
Revised July 9, 2021

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

Software Options Hardware Options
NightStar debugging and analysis tools Rack enclosures and monitor/keyboards
MAXAda 95 Expansion chassis
Fortran 77 Real-Time Clock & Interrupt Module (RCIM) options
RedHawk Architect and cluster software Concurrent-built PCIe I/O Cards
ImaGen GenesisIG Performance Tuning Monitors
SELinux Security SIGnal Workbench signal conditioning
RedHawk KVM-RT System integration
Service upgrade options

 



iHawk and ImaGen Platforms

Concurrent iHawk multiprocessors and ImaGen visual servers are available with Intel Xeon and Intel Core 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 Real-Time Multiprocessors

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 CPU sockets and up to 1 TB 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 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, CentOS, Rocky Linux and Ubuntu distributions, 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 5 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 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 or 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. The RCIM also offers an IRIG B time code option for transferring timing information in accordance with IRIG Standard 200-16.

Flexible Packaging

iHawk systems come in standard tower and rackmount enclosures with up to eleven integral PCIe slots and optional PCI/PCIe expansion. For users who require a VME I/O subsystem, an optional PCIe-to-VME bridge and chassis is available. iHawk systems can contain up to 24 disk drives with optional RAID capability.



ImaGen Visual Servers

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 AMDI.

Support for Industry Standard Applications

ImaGen supports a wide range of 3D visualization software such as 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.



iHawk and ImaGen Specifications Overview

The following table provides a summary of iHawk and ImaGen configurations and options.

 

Platform
Model

Packaging
CPU Type
CPU
Sockets
Cores
  GHz  

Max
Memory
(GB)

Disks
Note 1

Max
Drives

PCIe/
PCI
Slots

Note 2

On-board Ethernet


Graphics

Graphics
Options
iHawk
HQR7B
2U Rack
Xeon
Bronze
Silver
Gold
Platinum
1-2
4-28
1.8-3.6
1024

SATA
SAS

6
8/0
4
Quad PCIe x16
 
iHawk
HQT7B
Tower
Xeon
Bronze
Silver
Gold
Platinum
1-2
4-28
1.8-3.6
3092


SATA
SAS

6
7/0
2
Quad PCIe x16
 
iHawk
HQT7A
Tower
Xeon
Bronze
Silver
Gold
Platinum
1-2
4-28
1.8-3.6
384


SATA
SAS

4
5/1
1
Dual PCIe x16
 
iHawk
HQT5A
Tower
Xeon
W-2100
1
4-10
2.9-4.0
256


SATA
SAS

4
5/1
1
Dual PCIe x16
 
iHawk
HQR74
2U Rack

Xeon
Bronze
Silver
Gold
Platinum

1-2
4-28
1.8-3.6
768


SATA
SAS

16
8/0
4
On-board
VGA
 
iHawk
HQR64
1U Rack
Xeon
Bronze
Silver
Gold
Platinum
1-2
4-28
1.8-3.6
768


SATA
SAS

16
2/0
4
On-board
VGA
 
iHawk
HQT64
5U Rack/
Tower
Xeon
Bronze
Silver
Gold
Platinum
1-2
4-28
1.8-3.6
768


SATA
SAS

16
8/0
2
On-board
VGA
 

iHawk
HQ000

ImaGen
HQ0G1

1U Rack
Xeon
Bronze
Silver
Gold
Platinum
1
4-28
1.8-3.6
192
SATA
SAS
4
3/0
2
Dual PCIe x16
 

iHawk
HQ000

ImaGen
HQ0G1

1U Rack
Xeon
E5-2600v3
E5-2600v4
1-2
4-22
2.2-3.5
512
SATA
SAS
4
3/0
2
Dual PCIe x16
 

iHawk
HQ000

2U Rack
Xeon
Bronze
Silver
Gold
Platinum
2
4-28
1.8-3.6
512
SATA
10
6/0
2
AST2500
 

iHawk
HQ000

2U Rack
Xeon
E5-2600v3
E5-2600v4
1-2
4-22
2.2-3.5
512
SATA
10
6/0
5/0
3/0
2
Dual PCIe x16
 


iHawk
HQ000

4U/6U/7U
Industrial
Rack
Xeon
5500
E3-1200v2
E5-2400
E5-2400v2
1-2
4-10
1.8-3.5
48
SATA
6
6/6
18/0
11/0
10/0
2
PCIe x16
Genlock


iHawk
HQ000

ImaGen
HQ0G1

3U/4U
Rack/Tower
Xeon
Bronze
Silver
Gold
Platinum
2
4-28
1.8-3.6
384
SATA
SAS
16
6/2
7/2
11/0
21/0
2/4
Dual/Quad
PCIe x16
Genlock


iHawk
HQ000

ImaGen
HQ0G1

3U/4U
Rack/Tower
Xeon
E5-2600v3
E5-2600v4
E5-1600v3
E5-1600v4
1-2
4-22
2.2-3.5
384
SATA
SAS
16
6/2
7/2
11/0
2/4
Dual/Quad
PCIe x16
Genlock


iHawk
HQ000

ImaGen
HQ0G1

4U
GPU
Rack
Xeon
E5-2600v3
E5-2600v4
1-2
4-22
2.2-3.5
384
SATA
10
12/0
2
Eight
PCIe x16
Genlock

iHawk
HQ000

ImaGen
HQ0G1
2U Rack
Xeon
Gold
Platinum
4
4-28
2.0-3.6
3072
SAS
SATA
24
11/0
 4 
AST2500
 

iHawk
HQ000

ImaGen
HQ0G1
4U Rack
Xeon
E7-4800v4
E7-8800v4
E7-4800v3
E7-8800v3
2-4
4-24
2.1-3.2
3072
SAS
SATA
24
11/0
4/0
 2 
Matrox
G200
 
iHawk
HQR94
4U Rack
Xeon
Gold
Platinum
1-2
4-28
2.0-3.6
768
SAS
16
11/0
 4 
On-board
VGA
 


iHawk
HQ000

ImaGen
HQ0G1


3U/4U
Rack/Tower
Core i5
Core i7
4th/5th/6th/7th Gen

E3-1200v3/v4
E3-1200v5/v6
1
4-8
3.0-4.0
64
SATA
8

4/3
6/1
5/2
2/5
6/0
4/1

2

Dual
PCIe x16

Intel HD

Genlock


iHawk
HQ000

ImaGen
HQ0G1


3U/4U
Rack/Tower
Core i5
Core i7
2nd/3rd
Gen
1
4
3.0-3.4
32
SATA
8

3/1
2/5
4/2

2


PCIe x16

Intel HD

Genlock


iHawk
HQ000

ImaGen
HQ0G1


3U/4U
Rack/Tower
Core i7
1st Gen
1
4
3.06
12
SATA
4
3/3
4/2
3/1
2
Dual
PCIe x16
Genlock

Note 1 - Available SAS drives range from 146 GB to 8 TB. Available SATA drives range from 250 GB to 8 TB. Avaiable SSDs are 128 GB to 1.6 TB
Note 2 - On iHawk systems, one PCIe or PCI slot is occupied by the iHawk's Real-Ttime Clock & Interrupt Module (RCIM) card.


Expansion Chassis

PCIe-to-PCI

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, rackmount rails and 1.5 meter cable. (RoHS).

Prerequisites: Requires dual-CPU system or single-CPU motherboard X11SPL-F, X11SPI-TF, X11SPW or X11SPA-TF. 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, rackmount rails and 1.5 meter cable. DMA I/O not supported on iHawk HR430 systems. (RoHS).

Prerequisites: Requires dual-CPU system or single-CPU motherboard X11SPL-F, X11SPI-TF, X11SPW or X11SPA-TF. 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

HS007-EB7-G2 -- 7-slot 4U PCIe-to-PCIe Expansion Chassis, x8 to x8

4U rackmount PCIe-to-PCIe expansion chassis containing seven PCIe 2.0 slots with x8 performance. Can accomodate x1, x4, x8 and x16 PCIe cards. Includes 550 watt 115/230 VAC power supply, x8 host controller card, rackmount rails and 1 meter cable. 19” W x 7” H x 17.7” D. (RoHS).

Prerequisites: Requires dual-CPU system or single-CPU motherboard X11SPL-F, X11SPI-TF, X11SPW or X11SPA-TF. 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.

HS016-EB16-BX8 -- 16-slot 4U PCIe-to-PCIe Expansion Chassis, x8 Host

4U rackmount PCIe-to-PCIe expansion chassis containing fourteen x8 and two x16 PCIe slots. Includes 850 watt 115/230 VAC power supply, x8 host controller card, rackmount rails and 1 meter cable. (RoHS).

Prerequisites: Requires dual-CPU system or single-CPU motherboard X11SPL-F, X11SPI-TF, X11SPW or X11SPA-TF. 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.

HS016-EB16-BX16 -- 16-slot 4U PCIe-to-PCIe Expansion Chassis, x16 Host

4U rackmount PCIe-to-PCIe expansion chassis containing fourteen x8 and two x16 PCIe slots. Includes 1700 watt 115/230 VAC power supply, x16 host controller card, rackmount rails and 1 meter cable. (RoHS).

Prerequisites: Requires dual-CPU system or single-CPU motherboard X11SPL-F, X11SPI-TF, X11SPW or X11SPA-TF. Requires 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.

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. Requires a PCIe-to-VME bridge.

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. Requires a PCIe-to-VME bridge.

Real-Time Clock & Interrupt Module (RCIM) Options

This section contains options for RCIM IV, RCIM III and options common to both.

RCIM IV Options

RCIM IV External Interrupt Breakout Cables and Adapters

CX-DB26-4 -- RCIM IV Interface Assembly

Includes DB25 male and female right angle terminal board assemblies with 10-foot cable. Provides screw terminal breakout for both input and output signals.

CX-DB26-DIN-4 -- RCIM IV Interface Assembly with DIN Mounting

Includes DB25 male and female right angle terminal board assemblies with DIN mounting and 10-foot cable. Provides screw terminal breakout for both input and output signals.

730-1861337-901 -- RCIM IV External Interrupt Loopback Plug

730-1861337-902 -- RCIM IV External Interrupt Input Adapter

Adapter for receiving an external interrupt from an interrupt source or a 2nd system. Provides an RJ45 jack.

RCIM IV Cards Ordered Independent of an iHawk System

CPRC4-4 -- Real-Time Clock & Interrupt Module (RCIM IV)

The Real-Time Clock & Interrupt Module (RCIM IV) is a multifunction card designed for time-critical applications on Concurrent Real-Time's iHawk multiprocessing systems. The RCIM provides key functionality for single system as well as multiple system applications. Ideally suited for simulation, data acquisition and industrial control solutions, the RCIM includes a synchronized clock, eight programmable real-time clocks, and twelve input or output external interrupt lines. The RCIM mounts in a standard iHawk PCIe slot and is fully supported by Concurrent's RedHawk Linux real-time operating system.

CPRC4-4GPS -- Real-Time Clock & Interrupt Module (RCIM IV) with GPS Option

The Real-Time Clock & Interrupt Module (RCIM IV) is a multifunction card designed for time-critical applications on Concurrent Real-Time's iHawk multiprocessing systems. The RCIM provides key functionality for single system as well as multiple system applications. Ideally suited for simulation, data acquisition and industrial control solutions, the RCIM includes a synchronized clock, eight programmable real-time clocks, and twelve input or output external interrupt lines. The RCIM mounts in a standard iHawk PCIe slot and is fully supported by Concurrent's RedHawk Linux real-time operating system.

Includes 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: GPS/GNSS antenna (such as HS002-3GPSANTx or HS002-4GPSANTx) or antenna splitter module.

CPRC4-4PPM -- Real-Time Clock & Interrupt Module (RCIM IV) with Crystal Oscillator Option

The Real-Time Clock & Interrupt Module (RCIM IV) is a multifunction card designed for time-critical applications on Concurrent Real-Time's iHawk multiprocessing systems. The RCIM provides key functionality for single system as well as multiple system applications. Ideally suited for simulation, data acquisition and industrial control solutions, the RCIM includes a synchronized clock, eight programmable real-time clocks, and twelve input or output external interrupt lines. The RCIM mounts in a standard iHawk PCIe slot and is fully supported by Concurrent's RedHawk Linux real-time operating system.

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

CPRC4-4IRG -- Real-Time Clock & Interrupt Module (RCIM IV) with IRIG Option

The Real-Time Clock & Interrupt Module (RCIM IV) is a multifunction card designed for time-critical applications on Concurrent Real-Time's iHawk multiprocessing systems. The RCIM provides key functionality for single system as well as multiple system applications. Ideally suited for simulation, data acquisition and industrial control solutions, the RCIM includes a synchronized clock, eight programmable real-time clocks, and twelve input or output external interrupt lines. The RCIM mounts in a standard iHawk PCIe slot and is fully supported by Concurrent's RedHawk Linux real-time operating system.

Includes an IRIG time code module and breakout cable for transferring timing information in accordance with IRIG Standard 200-16. The RCIM IRIG option supports IRIG-B formats 024 or 124. Timing information can distributed as a DC level shift (DCLS) pulse-width coded signal or as an amplitude-modulated signal based on a sine wave carrier with a frequency of 1 KHz.

CPRC4-4GPS-PPM -- Real-Time Clock & Interrupt Module (RCIM IV) with GPS and Crystal Oscillator Options

The Real-Time Clock & Interrupt Module (RCIM IV) is a multifunction card designed for time-critical applications on Concurrent Real-Time's iHawk multiprocessing systems. The RCIM provides key functionality for single system as well as multiple system applications. Ideally suited for simulation, data acquisition and industrial control solutions, the RCIM includes a synchronized clock, eight programmable real-time clocks, and twelve input or output external interrupt lines. The RCIM mounts in a standard iHawk PCIe slot and is fully supported by Concurrent's RedHawk Linux real-time operating system.

Includes 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.

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

Prerequisites: GPS/GNSS antenna (such as HS002-3GPSANTx or HS002-4GPSANTx) or antenna splitter module.

CPRC4-4GPS-IRG -- Real-Time Clock & Interrupt Module (RCIM IV) with GPS and IRIG Options

The Real-Time Clock & Interrupt Module (RCIM IV) is a multifunction card designed for time-critical applications on Concurrent Real-Time's iHawk multiprocessing systems. The RCIM provides key functionality for single system as well as multiple system applications. Ideally suited for simulation, data acquisition and industrial control solutions, the RCIM includes a synchronized clock, eight programmable real-time clocks, and twelve input or output external interrupt lines. The RCIM mounts in a standard iHawk PCIe slot and is fully supported by Concurrent's RedHawk Linux real-time operating system.

Includes 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.

Includes an IRIG time code module and breakout cable for transferring timing information in accordance with IRIG Standard 200-16. The RCIM IRIG option supports IRIG-B formats 024 or 124. Timing information can distributed as a DC level shift (DCLS) pulse-width coded signal or as an amplitude-modulated signal based on a sine wave carrier with a frequency of 1 KHz.

Prerequisites: GPS/GNSS antenna (such as HS002-3GPSANTx or HS002-4GPSANTx) or antenna splitter module.

CPRC4-4PPM-IRG -- Real-Time Clock & Interrupt Module (RCIM IV) with Crystal Oscillator and IRIG Options

The Real-Time Clock & Interrupt Module (RCIM IV) is a multifunction card designed for time-critical applications on Concurrent Real-Time's iHawk multiprocessing systems. The RCIM provides key functionality for single system as well as multiple system applications. Ideally suited for simulation, data acquisition and industrial control solutions, the RCIM includes a synchronized clock, eight programmable real-time clocks, and twelve input or output external interrupt lines. The RCIM mounts in a standard iHawk PCIe slot and is fully supported by Concurrent's RedHawk Linux real-time operating system.

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

Includes an IRIG time code module and breakout cable for transferring timing information in accordance with IRIG Standard 200-16. The RCIM IRIG option supports IRIG-B formats 024 or 124. Timing information can distributed as a DC level shift (DCLS) pulse-width coded signal or as an amplitude-modulated signal based on a sine wave carrier with a frequency of 1 KHz.

CPRC4-4GPS-PPM-IRG -- Real-Time Clock & Interrupt Module (RCIM IV) with GPS, Crystal Oscillator and IRIG Options

The Real-Time Clock & Interrupt Module (RCIM IV) is a multifunction card designed for time-critical applications on Concurrent Real-Time's iHawk multiprocessing systems. The RCIM provides key functionality for single system as well as multiple system applications. Ideally suited for simulation, data acquisition and industrial control solutions, the RCIM includes a synchronized clock, eight programmable real-time clocks, and twelve input or output external interrupt lines. The RCIM mounts in a standard iHawk PCIe slot and is fully supported by Concurrent's RedHawk Linux real-time operating system.

Includes 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.

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

Includes an IRIG time code module and breakout cable for transferring timing information in accordance with IRIG Standard 200-16. The RCIM IRIG option supports IRIG-B formats 024 or 124. Timing information can distributed as a DC level shift (DCLS) pulse-width coded signal or as an amplitude-modulated signal based on a sine wave carrier with a frequency of 1 KHz.

Prerequisites: GPS/GNSS antenna (such as HS002-3GPSANTx or HS002-4GPSANTx) or antenna splitter module.

IRIG Breakout Cable

HS002-4CBL-IRG -- RCIM IV IRIG Breakout cable

Breakout cable for the RCIM IV IRIG B option.

Note: This cable included with the RCIM IV IRIG option.

RCIM III Options

RCIM III GPS and Oscillator 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/GNSS antenna (such as HS002-3GPSANTx or HS002-4GPSANTx) or antenna splitter module.

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-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/GNSS antenna (such as HS002-3GPSANTx or HS002-4GPSANTx) or antenna splitter module)

RCIM III External Interrupt Adapters

.730-1840042-901 -- RCIM III External Interrupt Loopback Plug

730-1840042-902 -- RCIM III External Interrupt Input Adapter

Adapter for receiving an external interrupt from an interrupt source or a 2nd system. Provides an RJ45 jack.

730-1840042-903 -- RCIM III External Interrupt Output Adapter

Adapter for sending an external interrupt from an iHawk system. Provides an RJ45 jack.

730-1840042-904 -- RCIM III External Clock Plug I/O Adapter

Adapter for sending or receiving a clock signal from an iHawk system. Provides an RJ45 jack.

730-1840042-905 -- RCIM III External Interrupt/Clock Plug Input Adapter

Adapter for receiving an external interrupt or clock signal from an interrupt source or a 2nd system. Provides an RJ45 jack.

RCIM Options Common to RCIM IV and RCIM III

Synchronization Cables

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

Antennas

HS002-3GPSANT -- RCIM 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 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 or IV and the GPS option

HS002-3GPSANT150 -- RCIM 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 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 or IV and the GPS option

HS002-4GPSANT -- RCIM Multi-GNSS 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 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 or IV and the GPS option

HS002-4GPSANT150 -- RCIM Multi-GNSS 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 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 or IV and the GPS option

Monitors

VG8720 -- 20" LCD Flat Panel Monitor

20" LCD flat panel monitor with an optimum resolution of 1600 x 900, 250 cd/m2 brightness and 1000:1 contrast ratio. Viewing angle 170° horizontal and 160° vertical. Includes monitor cable.

Prerequisite: HQx or HRx

Note: Available only with iHawk or ImaGen system purchase.

VG8722 -- 22" LED Flat Panel Monitor

22" LED flat panel monitor with an optimum resolution of 1920 x 1080, 250 cd/m2 brightness and 1,000:1 contrast ratio. Viewing angle 170° horizontal and 160° vertical. Includes monitor cable.

Prerequisite: HQx or HRx

Note: Available only with iHawk or ImaGen system purchase

VG8724 -- 24" LED Flat Panel Monitor

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

Prerequisite: HQx or HRx

Note: Available only with iHawk or ImaGen system purchase.

VG-VP2468 -- 24" LED Flat Panel Monitor w/HDMI Connector

24" LED flat panel monitor with an optimum resolution of 1920 x 1080, 250 cd/m2 brightness and 1,000:1 contrast ratio. Viewing angle 178° horizontal and 178° vertical. Includes monitor cable.

Prerequisite: HQx or HRx

Note: Available only with iHawk or ImaGen system purchase.

VG-VP2771 -- 27" LED Flat Panel Monitor w/HDMI Connector

27" LED flat panel monitor with an optimum resolution of 2560 x 1440, 350 cd/m2 brightness and 1,000:1 contrast ratio. Viewing angle 178° horizontal and 178° vertical. Includes monitor cable.

Prerequisite: HQx or HRx

Note: Available only with iHawk or ImaGen system purchase.

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.

HQ-MAINT-DISK-OPT -- Keep Your Drive Maintenance Option

This option is intended for customers who want to keep their disk drive when a drive hardware failure occurs. A replacement disk drive is provided without return of the failed drive to Concurrent. This option is available for on-site and return-to-factory maintenance, and covers all of the disk drives on one iHawk or ImaGen system as delivered by Concurrent.

Prerequisite: Maintenance 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 Linux 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 and the Datamon data probing API. Includes one copy of the RedHawk Frequency-Based Scheduler (FBS) for installation on the NightStar floating license server only.

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

Note: If needed, FBS must be individually purchased for all systems except for the license manager system.

WU1220-LDVU -- NightStar For RedHawk, Jetson Educational System, Node-locked

Provides a single-user node-locked NightStar tools package license on a iHawk Jetson 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 Jetson Educational System running RedHawk Linux (HQ000-J0EDU-x)

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 Linux PC

This product allows an user to execute the NightStar tools on a standard Linux 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/ImaGen. An x86 PC with at least 128 MB of memory running modern or long-term-support versions of RHEL, CentOS, Rocky Linux, Fedora, Ubuntu, Debian, Linux Mint, SUSE Enterprise Linux and openSUSE. 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 CentOS or Rocky Linux-based 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 64-bit RedHawk Linux with CentOS or Rocky Linux distribution.

WU1210-JA-UBU -- RedHawk Linux FBS for Ubuntu-based 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 64-bit RedHawk Linux with Ubuntu distribution.

WU1210-ARM -- RedHawk Linux FBS for ARM64 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 with RedHawk Linux for ARM64.

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 or HRx)

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. Notes: Not supported on systems with greater than 32 processor cores. On-line help not availalble with RedHawk versions 7.0 and later.

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

RedHawk Architect and cluster software

W-RHA -- RedHawk Architect for iHawk with 32-bit RedHawk installed

RedHawk Architect is an easy-to-use GUI that lets a developer choose the Linux and application modules that will be installed with the RedHawk kernel. For example, users can select networking, web server, web browser, database, X server, minimal or all packages. RedHawk Architect allows the Linux file system to be customized and minimized for diskless applications using flash memories.

RedHawk Architect creates and processes a configuration file based upon the user's selections and performs actual RPM package installation. The tool prompts the user to insert the necessary RedHawk, CentOS, Rocky Linux and NightStar media depending upon the features selected. RedHawk Architect will allow customization of the RedHawk kernel itself and provides a flashing tool for burning RedHawk and the user's application image onto a CPU board's non-volatile memory. RedHawk Architect includes support for creating bootable DVD and USB flash drive installers that will install target images on run-time systems.

RedHawk Architect's cluster manager support 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 Architect includes a mechanism for easily installing multiple nodes of a cluster with the same version of RedHawk Linux.

Prerequisites: Concurrent iHawk or ImaGen system with 32-bit RedHawk Linux 6.0 or above. 12 GB of free disk space is required on /tftpboot/yaci for creating a cluster file system image. One purchase required per LAN-connected cluster.

W-RHA-64 -- RedHawk Architect for iHawk with 64-bit RedHawk installed

RedHawk Architect is an easy-to-use GUI that lets a developer choose the Linux and application modules that will be installed with the RedHawk kernel. For example, users can select networking, web server, web browser, database, X server, minimal or all packages. RedHawk Architect allows the Linux file system to be customized and minimized for diskless applications using flash memories.

RedHawk Architect creates and processes a configuration file based upon the user's selections and performs actual RPM package installation. The tool prompts the user to insert the necessary RedHawk, CentOS, Rocky Linux and NightStar media depending upon the features selected. RedHawk Architect will allow customization of the RedHawk kernel itself and provides a flashing tool for burning RedHawk and the user's application image onto a CPU board's non-volatile memory. RedHawk Architect includes support for creating bootable DVD and USB flash drive installers that will install target images on run-time systems.

RedHawk Architect's cluster manager support 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 Architect includes a mechanism for easily installing multiple nodes of a cluster with the same version of RedHawk Linux.

Prerequisites: Concurrent iHawk or ImaGen system with 64-bit RedHawk Linux 6.0 or above. 12 GB of free disk space is required on /tftpboot/yaci for creating a cluster file system image. One purchase required per LAN-connected cluster.

WA9020-L -- RedHawk OpenFabrics Enterprise Distribution

OpenFabrics Enterprise Distribution (OFED) for RedHawk is a collection of software components intended for use on a computer cluster constructed as an InfiniBand network. InfiniBand can be deployed in clusters with two or more nodes. In addition to connecting servers, InfiniBand can also be used to connect communications and storage fabrics in data centers.

Prerequisites: Two or more Concurrent iHawk or ImaGen systems linked by a Mellanox InfiniBand network.

Note: This product is currently Home Office Quote (HOQ). Support may not be immediately available for all RedHawk versions and InfiniBand hardware models. A custom quotation may be required.

ImaGen GenesisIG Performance Tuning

WU1600-IG -- ImaGen powered by GenesisIG Performance Tuning when DVC software is not purchased from Concurrent

This service assures optimal rendering performance of ImaGen GenesisIG systems when Diamond Visionics' GenesisIG software is not ordered with the system. Integration and tuning are performed in Concurrent's factory prior to shipment. Tuning includes elimination of desktop overhead and optimization of the RedHawk kernel, CPU core and memory allocation, the NVIDIA driver and GenesisIG drawing efficiency. Includes GNOME 2 desktop (W-CENT-MATE).

Prerequisite: ImaGen powered by GenesisIG without GenesisIG software.

WU1601-IG -- ImaGen powered by GenesisIG Performance Tuning when DVC software is purchased from Concurrent

This service assures optimal rendering performance of ImaGen GenesisIG systems when Diamond Visionics' GenesisIG software is ordered with the system. Integration and tuning are performed in Concurrent's factory prior to shipment. Tuning includes elimination of desktop overhead and optimization of the RedHawk kernel, CPU core and memory allocation, the NVIDIA driver and GenesisIG drawing efficiency. Includes GNOME 2 desktop (W-CENT-MATE).

Prerequisite: ImaGen powered by GenesisIG with GenesisIG software.

SELinux Security

WA9022-L -- RedHawk SELinux Security Installation Option

This option enables SELinux security in strict mode in an iHawk or ImaGen system shipped from Concurrent's factory.

Prerequisite: iHawk or ImaGen system (HQx or HRx)

RedHawk KVM-RT

WU1601-KVM-RT -- Factory Installation Service for RedHawk KVM-RT on an iHawk or ImaGen system

Provides a customized installation of the Kernel Virtual Machine (KVM) hypervisor on a single iHawk or ImaGen system in Concurrent Real-Time's factory. A KVM-RT installation with RedHawk Linux as the host operating system is designed to achieve maximum real-time performance in a virtual environment. Multiple RedHawk real-time guests and non-real-time guests can be configured. Note: The desired application environment, including hardware platform and the number and types of guest operating systems, must be reviewed by Concurrent Real-Time prior to order. Please fill out and submit the KVM-RT Configuration Form found at http://news.concurrent-rt.com/info/KVM-RT.pdf

Prerequisites:

WU1602-KVM-RT -- RedHawk KVM-RT Configuration Tool, CentOS/Rocky Linux Environment

Provides a configuration tool and documentation to assist users in allocating a system's processor cores, memory, peripherals and other hardware resources to each virtual machine of a KVM-RT installation. RedHawk KVM-RT is virtual real-time environment based on the Kernel Virtual Machine (KVM) hypervisor. With RedHawk Linux as the host operating system, a KVM-RT installation provides guaranteed real-time performance in virtual machines. Multiple RedHawk real-time guests and multiple Windows and non-real-time Linux guests are supported. KVM-RT can achieve worst case response times of less than 10 microseconds on certified hardware platforms. This tool is recommended for customers who are self-installing KVM-RT. Concurrent engineering services to assist in a KVM-RT installation are available by special quotation. Requires purchasee of WU1601-KVM-RT installation service.

Prerequisites:

Note: The intended application environment, including hardware platform and the number and types of guest operating systems, must be reviewed by Concurrent Real-Time prior to order.

WU1602-KVM-RTU -- RedHawk KVM-RT Configuration Tool, Ubuntu Environment

Provides a configuration tool and documentation to assist users in allocating a system's processor cores, memory, peripherals and other hardware resources to each virtual machine of a KVM-RT installation. RedHawk KVM-RT is virtual real-time environment based on the Kernel Virtual Machine (KVM) hypervisor. With RedHawk Linux as the host operating system, a KVM-RT installation provides guaranteed real-time performance in virtual machines. Multiple RedHawk real-time guests and multiple Windows and non-real-time Linux guests are supported. KVM-RT can achieve worst case response times of less than 10 microseconds on certified hardware platforms. This tool is recommended for customers who are self-installing KVM-RT. Concurrent engineering services to assist in a KVM-RT installation are available by special quotation. Requires purchasee of WU1601-KVM-RT installation service.

Prerequisites:

Note: The intended application environment, including hardware platform and the number and types of guest operating systems, must be reviewed by Concurrent Real-Time prior to order.

System Integration

730-INT-MOT -- System Integration

System Integration provides for factory 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.

Cabinet
Sizes
Ethernet Switches
Keyboard/Monitors
PDUs

14U
22U
36U
38U
42U

24-port
48-port
17" monitor/keyboard
17" monitor/keyboard with 8-port KVM switch
17" monitor/keyboard with 12-port KVM switch
17" monitor/keyboard with 16-port KVM switch
Keyboard with 8-port KVM switch
Keyboard with 16-port KVM switch
8-port KVM switch
16-port KVM switch

1U 1.8kW Single-Phase 120V, 15A Basic PDU, 13 NEMA 5-15R Outlets, NEMA 5-15P Input, 15 ft. Cord (PDU1215)

1U 2.4kW Single-Phase 120V, 20A Basic PDU, 13 NEMA 5-15/20R Outlets, NEMA 5-20P Input, 15 ft. Cord (PDU1220)

1.44kW Single-Phase 120V Basic PDU, 14 NEMA 5-15R Outlets, NEMA 5-15P Input, 15 ft. Cord, 0U 36 in. Vertical (PDUV15)

1.9kW Single-Phase 120V Basic PDU, 14 NEMA 5-15/20R Outlets, NEMA L5-20P Input with 5-20P Adapter, 15 ft. Cord, 0U 36 in. Vertical (PDUV20)

1.6–3.8kW Single-Phase 100–240V Basic PDU, 14 Outlets (12 C13 & 2 C19), C20 with L6-20P Adapter, 12 ft. Cord, 1U rackmount (PDUH20DV)

4.8/5.8kW Single-Phase 200/208/240V Basic PDU, 20 Outlets (16 C13 & 4 C19), NEMA L6-30P Input, 15 ft. Cord, 1U rackmount (PDU1230)

2.9kW Single-Phase 120V Basic PDU, 24 NEMA 5-15R Outlets, NEMA L5-30P Input, 15 ft. Cord, 1U rackmount (PDU2430)

2U / 0U international 115V-230V 30A PDU, L6-30 input plug, two C19 primary output receptacles, 1 master and 1 USB programmable (1680106-901)

0U PDU, 38 Outlets (32 C13 and 6 C19), NEMA L6-30P Inpu, 10 ft. Cord (PDUV30HV)

Switched/Monitoring PDU, 0U, 60.6 in, 5kVA, 24 outlets, Input: 208v, 30a - NEMA L6-30P plug; Output: 20x C13, 4x C19 outlets (PX3-5497V)

1U Switched Monitoring PDU, 3.3kVA, 8 outlets, Input: 208v, 20a, IEC60320-C20 to NEMA L6-20P plug; Output: 8x C13 outlets (PX3-5180R)

1U 15A PDU, 1.44kW, 3840 Joule Surge/Noise Suppression, Built-in 2 digit visual meter continuously reports PDU load level, Input: 120V-15A, Input Plug NEMA 5-15P; Outputs: 14x 5-15R

1U 20A PDU, 1.92kW, 3840 Joule Surge/Noise Suppression, Built-in 2 digit visual meter continuously reports PDU load level, Input: 120V-20A, Input Plug NEMA 5-20P/NEMA L5-20P; Output: 2x 5-15R & 12x 5-15/20R