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A Network Time Interface M-Module for Distributing GPS-Time over LANs (2000)

Schmid, Ulrich ; Klasek, Johann ; Mandl, Thomas ; [et al.]

Springer

Real-time systems 18 (2000), S. 25-57

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ISSN: 1573-1383

Keywords: Interval-based external clock synchronization ; GPS time distribution ; fault-tolerant distributed real-time systems ; COTS ; M-Modules ; Ethernet ; experimental evaluation

Source: Springer Online Journal Archives 1860-2000

Topics: Computer Science

Notes: Abstract This paper provides a comprehensive overview of our Network Time Interface (NTI) M-Module, which facilitates high-accuracy time distribution in LAN-based distributed real-time systems. Built around our custom UTCSU VLSI chip, it hosts all the hardware support required for interval-based external clock synchronization: A high-resolution state- and rate-adjustable clock, local accuracy intervals, interfaces to GPS receivers, and various timestamping features. Maximum network controller and CPU independence ensures that the available NTI prototype can be employed in virtually any COTS-based system with MA-Module interface. Our experimental evaluation shows that time distribution with μs-accuracy is possible even in Ethernet-based system architectures, provided that the available configuration parameters are suitably chosen to cope with the various hidden sources of timing uncertainty.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008150426963

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Interval-based Clock Synchronization (1997)

Schmid, Ulrich ; Schossmaier, Klaus

Springer

Real-time systems 12 (1997), S. 173-228

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ISSN: 1573-1383

Keywords: external clock synchronization ; fault-tolerant distributed real-time systems ; universal time coordinated (UTC) ; convergence functions ; generic precision analysis ; accuracy intervals ; clock granularity ; continuous amortization

Source: Springer Online Journal Archives 1860-2000

Topics: Computer Science

Notes: Abstract In this paper, we develop and analyze a simple interval-based algorithm suitable for fault-tolerant external clock synchronization. Unlike usual internal synchronization approaches, our convergence function-based algorithm provides approximately synchronized clocks maintaining both precision and accuracy w.r.t. external time. This is accomplished by means of a time representation relying on intervals that capture external time, providing accuracy information encoded in interval lengths. The algorithm, which is generic w.r.t. the convergence function and relies on either instantaneous correction or continuous amortization for clock adjustment, is analyzed by utilizing a novel, interval-based framework for establishing worst-case precision and accuracy bounds subject to a fairly detailed system model. Apart from individual clock rate and transmission delay bounds, our system model incorporates non-standard features like clock granularity and broadcast latencies as well. Relying on a suitable notion of internal global time, our analysis unifies treatment of precision and accuracy, ending up in striking conceptual beauty and expressive power.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1007957901560

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Specification and Implementation of the Universal Time Coordinated Synchronization Unit (UTCSU) (1997)

Schossmaier, Klaus ; Schmid, Ulrich ; Horauer, Martin ; [et al.]

Springer

Real-time systems 12 (1997), S. 295-327

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ISSN: 1573-1383

Keywords: Real-time systems ; external clock synchronization ; Universal Time Coordinated (UTC) ; Adder-Based Clock (ABC) ; linear continuous amortization ; accuracy intervals ; Application Specific Integrated Circuit (ASIC) ; Very high speed integrated circuit Hardware DescriptionLanguage (VHDL) ; Global Positioning System (GPS)

Source: Springer Online Journal Archives 1860-2000

Topics: Computer Science

Notes: Abstract High-accuracy external clock synchronization can only be achieved with adequate hardware support. We analyze the requirements and present the specification and implementation of an ASIC running under the acronym UTCSU dedicated to that purpose. It is built around an elaborated local clock, which is based on an adder driven by a fixed-frequency oscillator. This novel clock design allows a fine grained rate adjustability apt for maintaining both local time with linear continuous amortization and accuracy information as needed in interval-based clock synchronization. Additional features incorporated in our UTCSU are facilities to timestamp clock synchronization data packets, interfaces to couple GPS receivers, some application support as well as sophisticated self-test machinery. Apart from addressing design and engineering issues of the chip, we also provide a basic programming model.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1007953214631

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