Mixed-Criticality Networks Sample Clauses

Mixed-Criticality Networks. In distributed systems, processing and data are spread out over multiple systems (e.g., multi-core processors) over communication networks (e.g., TTEthernet). The broad trend of the integration of functionalities with different criticality on a single embedded computing platform requires the usage of communication media systems with different criticality. These communication systems, which are also called as mixed-criticality networks, shall be capable of supporting a safe and a predictable message exchange between distribution application subsystems (DAS) with different criticality. Mixed-criticality networks are targeted as the natural replacement of traditional legacy buses due to the increasing amount of data that is required to be exchanged, the decrease of cost factor, the higher speed and the integration with existing network infrastructures. They can be divided into off- chip and on-chip networks with real-time and non-real time features. Off-chip networks are used to connect different devices that may be located far away (physically) from each other. On the other hand, on-chip networks provide communication between the elements of the device (e.g., cores, memories and peripherals). For example, EtherCAT is a real-time industrial Ethernet on-chip network. The use of internal network-on-chip systems shifts the problems associated with traditional networks into the chip. However, the shift towards mixed-criticality networks poses many challenges related to increasing demand for real-time, safety and security features in different application domains such as automotive and railway. To cope with those challenges white channel and black channel network approaches are defined by the IEC 61508-2 safety standard [19]. White channel shall be designed, implemented and validated according to the IEC 00000-0-0 [19, 20] and IEC 61784-3 [21] or IEC 62280 [22] safety-related standards. Instead, in the case of the black channel it is assumed that not all parts of the communication channel are designed and validated according to the IEC 61508 safety standard. In that case, the safety-related subsystems or elements that compose the communication channel shall implement IEC 61784-3 [21] or IEC 62280 [22] compliant measures and diagnostic techniques to ensure the failure performance of the communication process.
Sample 1
AutoNDA by SimpleDocs

Related to Mixed-Criticality Networks

  • Geometric visibility The visibility of the illuminating surface, including its visibility in areas which do not appear to be illuminated in the direction of observation considered, shall be ensured within a divergent space defined by generating lines based on the perimeter of the illuminating surface and forming an angle of not less than 5° with the axis of reference of the headlamp. The origin of the angles of geometric visibility is the perimeter of the projection of the illuminating surface on a transverse plane tangent to the foremost part of the lens of the headlamp.

  • Benchmarks for Measuring Accessibility For the purposes of this Agreement, the accessibility of online content and functionality will be measured according to the W3C’s Web Content Accessibility Guidelines (WCAG) 2.0 Level AA and the Web Accessibility Initiative Accessible Rich Internet Applications Suite (WAI-ARIA) 1.0 for web content, which are incorporated by reference. Adherence to these accessible technology standards is one way to ensure compliance with the College’s underlying legal obligations to ensure that people with disabilities are able to acquire the same information, engage in the same interactions, and enjoy the same benefits and services within the same timeframe as their nondisabled peers, with substantially equivalent ease of use; that they are not excluded from participation in, denied the benefits of, or otherwise subjected to discrimination in any College programs, services, and activities delivered online, as required by Section 504 and the ADA and their implementing regulations; and that they receive effective communication of the College’s programs, services, and activities delivered online.

  • PERFORMANCE MANAGEMENT SYSTEM 5.1 The Employee agrees to participate in the performance management system that the Employer adopts or introduces for the Employer, management and municipal staff of the Employer.

  • Trunk Group Architecture and Traffic Routing The Parties shall jointly engineer and configure Local/IntraLATA Trunks over the physical Interconnection arrangements as follows:

  • STATEWIDE ACHIEVEMENT TESTING When CONTRACTOR is an NPS, per implementation of Senate Bill 484, CONTRACTOR shall administer all Statewide assessments within the California Assessment of Student Performance and Progress (“CAASP”), Desired Results Developmental Profile (“DRDP”), California Alternative Assessment (“CAA”), achievement and abilities tests (using LEA-authorized assessment instruments), the Fitness Gram with the exception of the English Language Proficiency Assessments for California (“ELPAC”) to be completed by the LEA, and as appropriate to the student, and mandated by XXX xxxxxxxx to LEA and state and federal guidelines. CONTRACTOR is subject to the alternative accountability system developed pursuant to Education Code section 52052, in the same manner as public schools. Each LEA student placed with CONTRACTOR by the LEA shall be tested by qualified staff of CONTRACTOR in accordance with that accountability program. XXX shall provide test administration training to CONTRACTOR’S qualified staff. CONTRACTOR shall attend LEA test training and comply with completion of all coding requirements as required by XXX.

  • Net Metering If you generate electricity from a renewable generating facility to offset your electricity consumption and/or use net metering at any time during the term of this Agreement, you must notify Starion.

  • Infrastructure Vulnerability Scanning Supplier will scan its internal environments (e.g., servers, network devices, etc.) related to Deliverables monthly and external environments related to Deliverables weekly. Supplier will have a defined process to address any findings but will ensure that any high-risk vulnerabilities are addressed within 30 days.

  • PROPANE GAS SYSTEM SERVICE AREA If the Property is located in a propane gas system service area owned by a distribution system retailer, Seller must give Buyer written notice as required by §141.010, Texas Utilities Code. An addendum containing the notice approved by TREC or required by the parties should be used.

  • Access to Network Interface Device (NID 2.4.3.1. Due to the wide variety of NIDs utilized by BellSouth (based on subscriber size and environmental considerations), Mpower may access the on-premises wiring by any of the following means: BellSouth shall allow Mpower to connect its loops directly to BellSouth’s multi-line residential NID enclosures that have additional space and are not used by BellSouth or any other telecommunications carriers to provide service to the premise. Mpower agrees to install compatible protectors and test jacks and to maintain the protection system and equipment and to indemnify BellSouth pursuant to Section 8 of the General Terms and Conditions of this Agreement.

  • CONTRACTOR NAME CHANGE An amendment is required to change the Contractor's name as listed on this Agreement. Upon receipt of legal documentation of the name change the State will process the amendment. Payment of invoices presented with a new name cannot be paid prior to approval of said amendment.

Draft better contracts in just 5 minutes Get the weekly Law Insider newsletter packed with expert videos, webinars, ebooks, and more!