Acrosser Technology is introducing its all new official website.

 

Acrosser Technology is introducing its all-new official website- https://www.acrosser.com/en/. 

This new official website contains all information on Acrosser product lines.

 

Acrosser’s product lines including:

 

Autonomous Driving-Servers:

The latest products are AAD-C622AX and AIV-C622V1.

 

Networking Appliance:

The latest products are AND-DNV3N3-4C and AES-APL1E2FL for MicroBox.

The latest products are ANR-C627 C622N1 and ANR-W480A1/A2 for Rackmount.

 

In-Vehicle Computer:

The latest products are AIV-C622V1 and AIV-Q170V1FL for In-Vehicle-PCs.

The latest products are AR-DP071VW and AR-DP080V for In-Vehicle Touch-monitor.

 

Computer on Modules:

The latest products are ACM-XD15B7 and ACM-XE21B6 for Com-Express.

 

Single-Board-Computer:

The latest product is AMB-BT19S1 for 3.5” SBC.

 

Industrial-Computer:

The latest product is AES-APL1E1FL for Fanless-Embedded-Systems.

The latest product is AMB-VDX3H1 for Half Size Card.

 

Panel-PC:

  These product lines including Panel PC 7”, Panel PC 8” , Panel PC 10”, Panel PC 12”, Panel PC 15”, Panel PC 17” and Panel PC 21”.

 

If you have any requests for our products, please feel free to contact us https://www.acrosser.com/en/Contact/Inquiry

We will reply to you very soon.

self-driving car, autonomous car, driverless car, self-driving, Internet of Vehicles, Autonomous computer systems

Networking Appliance, network appliances,  Microbox Network,  Network Server Hardware,  Microbox Network, 1U/2U rackmount servers ,  SD-WAN hardware solution,  SD-WAN

In-Vehicle Computer , Car PC, Vehicle PC, Bus PC,, car pc solutions, in-vehicle system, rugged vehicle computer , In Cab Computer,

Com Express module , Type 6 module, COM Express,

Half-Size Card,  Fanless Embedded Systems, Fanless Embedded Systems , industrial-grade IPC, industrial computer, industrial PC ,

embedded computing,

Panel PC,  Human Machine Interface,  Industrial Touch Screen PC,  automation HMI

 

Safety for increasing on-chip module

Glitch Filters
Spurious events at input pins can cause functional failures to a chip. Critical pins like reset and interrupt can have glitch filters to stop noise and transient spikes from getting in.

Redundant critical on-chip modules like processor, ISO, DMA controller, internal clock generator, and communications peripherals can improve reliability should a primary hardware module become non-functional while the vehicle is running. Such a system can have in-built error detection mechanisms and on-the-fly switching to redundant hardware to mitigate threats to passenger safety.
But this kind of redundant hardware architecture comes with the penalty of increased area and higher power management in silicon. Area penalties can be minimized by intelligent selection of which functions need to be duplicated in silicon. Power can be minimized by adopting power and clock gating in the redundant modules. Some  in-vehicle computers can be implemented in lock-step of each other, where primary and redundant modules process the same input. Mismatch in the output of the lock-step modules indicates a defect in either of the modules. The system can switch itself off or take appropriate safety measures to avoid any real-time failure. Redundant hardware should be placed quite far in silicon from the primary embedded systems to avoid tampering of both modules together.

refer to: http://www.edn.com/design/automotive/4421704/Safety---security-architecture-for-automotive-ICs

Rackmount platform which can be installed in the 19” rack

ANR-IB751N1/A/B networking appliances. ANR-IB751N1/A/B networking appliances are the latest in scalable Intel 3rd generation Core i7/i5/i3 processors (formerly code-named Ivy Bridge).



 ANR-IB75N1/A/B is a rackmount platform (440x372x44mm) which can be installed in the 19” rack. It can carry a 3rd generation Intel Core i i3, i5, i7, or Pentium processors to deliver higher efficiency, increased processing throughput, and improved performance on applications. ANR-IB75N1/A/B also comes equipped with a maximum 16GB DDR3 memory and optional 2 or 4 x SFP and 8 x LAN ports. System Integrators can select different configurations for their network appliances. It offers the best P/P ratio in applications like the UTM, IDS/IPS, VPN, Firewall, Anti-Virus, Anti-Spam, RSA gateway, QoS, streaming.

New Atom mainboard for customer

New Atom series solutions which include AMB-D255T1 Mini-ITX industrial mainboard and AMB-N280S1 fanless 3.5-inch single board computer. AMB-D255T1 is equipped with an Intel D2550 Atom processor. AMB-N280S1 is equipped with an Intel N2800 Atom. Both have a 5~7 year product warranty.

AMB-D255T1
http://www.acrosser.com/Products/Single-Board-Computer/Mini-ITX-&-others/AMB-D255T1 (Mini-ITX-)/Intel-Atom-D2550-AMB-D255T1-(Mini-ITX)-.html

AMB-N280S1
http://www.acrosser.com/Products/Single-Board-Computer/3．5’’-SBC/AMB-N280S1/Single-Board-Computer-AMB-N280S1.html

In response to growing pressure to boost the performance

In response to growing pressure to boost the performance and trim down the size of embedded applications, standards organizations meet regularly to optimize their portfolios in light of the latest available technology. These updated standards take advantage of new silicon architecture combining multiple processors, graphics elements, and complex I/O to deliver the next generation of preengineered, off-the-shelf modules to support many of the high-performance requirements of embedded product development.

These standardized computer platforms allow designers to trade in substantial savings in Non-Recurring Engineering (NRE) and scheduling for slightly higher recurring costs. Standards-based designs also shortcut the software development effort by providing access to compatible operating systems, vendor-supplied drivers, and sample firmware.

refer: http://embedded-computing.com/articles/evolving-simplify-embedded-development/

Real-time and general-purpose systems

 

Virtualization for embedded systems has many implementations in which two or more operating systems coexist to gain the benefits of each. One approach puts Microsoft Windows and a Real-Time Operating System (RTOS) together.

 

Much is being said about virtualization these days in the softwareworld. Simply stated, virtualization is about getting multiple OSs to run on the same computing platform at the same time. Virtualization has been cited as a key technology for getting the most performance out of the newest multicore processors. But just as not all computing applications are the same, not all virtualization approaches are appropriate for all applications.
Embedded systems have a key requirement that doesn’t normally apply to office and server computers: the need for deterministic response to real-time events. To support the requirement for determinism, embedded applications typically use RTOSs. Embedded applications also employ general-purpose OSs to handle operator interfaces, databases, and general-purpose computing tasks.
In the past, because OSs couldn’t successfully co-reside on computing platforms, system developers employed multiple processing platforms using one or more to support real-time functions and others to handle general-purpose processing. System designers that can combine both types of processing on the same platform can save costs by eliminating redundant computing hardware. The advent of multicore processors supports this premise because it is possible to dedicate processor cores to different computing environments; however, the software issues posed by consolidating such environments require special consideration. Combining real-time and general-purpose operating environments on the same platform (Figure 1) places some stringent requirements on how virtualization is implemented.

refer: http://embedded-computing.com/articles/real-time-general-purpose-unite-via-virtualization/