 |
Presentation #1:
PERC Ultra Virtual Machine for Complex Real-Time Systems
75 minutes plus 15 minutes for Q&A
The PERC Ultra Virtual Machine leads the industry in
successful deployments of mission-critical real-time
systems. PERC Ultra combines Java Standard Edition 5
compatibility with deterministic real-time garbage
collection, portable real-time scheduling abstractions, and
proven 5-9s availability.
PERC Ultra technologies have been successfully deployed in a
diversity of market segments, including commercial fleet
telematics, electric power generation, industrial
automation, mission planning for unmanned aircraft,
network-centric warfare applications, office automation,
telecommunications infrastructure equipment, television
broadcast equipment, and test and measurement applications.
In this session, participants will learn about the PERC
Ultra features that uniquely qualify this virtual machine to
serve the needs of mission-critical systems. Specific areas
of focus include portable real-time operating system
programming abstractions, real-time garbage collection, and
high-level timing abstractions. Learn why PERC Ultra
customers consistently experience two-fold productivity
gains during development of new code and five- to ten-fold
cost savings during maintenance and evolution of existing
embedded real-time software systems compared with the use of
legacy languages like C and C++.
Presentation #2: PERC Pico Technologies for Hard Real-Time, High Performance,
and Safety-Critical Development
75 minutes plus 15 minutes for Q&A
The PERC Pico platform represents an exciting new offering
from Aonix.
Based on over three years of involvement with the Open Group
and the Java Community Process in standardization activities
for safety-critical Java, the PERC Pico product delivers
memory footprint, raw processing speed, and real-time
determinism comparable to the use of optimized C code, while
preserving the scalability and software reuse benefits of
traditional Java.
This session presents an overview of the PERC Pico platform,
with emphasis on empowering features such as safe
stack-memory allocation of temporary objects, portable
low-level programming abstractions to support development of
device drivers and interrupt handlers, and static analysis
development tool support to help manage budgets for memory
and CPU time in the face of evolving hardware capabilities
and ever increasing software functionality.
Presentation #3: (Munich Only)
Using Microkernal Technology for Safety Critical
Applications -
Presented by SYSGO AG
 |
