Abstract :
The Procedure Execution Manager (PEM) combines a complete scripting environment for coding accelerator operation procedures with a manager application for executing and monitoring the procedures. PEM is based on Tcl/Tk, a supporting widget library, and the dp-tcl extension for distributed processing. The scripting environment provides support for distributed, parallel execution of procedures along with join and abort operations. Nesting of procedures is supported, permiting the same code to run as a top-level procedure under operator control or as a subroutine under control of another procedure. The manager application allows an operator to execute one or more procedures in automatic, semi-automatic, or manual modes. It also provides a standard way for operators to interact with procedures. A number of successful applications of PEM to accelerator operations have been made to date. These include start-up, shutdown, and other control of the positron accumulator ring (PAR), low-energy transport (LET) lines, and the booster rf systems. The PAR/LET procedures make nested use of PEM´s ability to run parallel procedures. There are also a number of procedures to guide and assist tune-up operations, to make accelerator physics measurements, and to diagnose equipment. Because of the success of the existing procedures, expanded use of PEM is planned
Keywords :
accelerator control systems; authoring systems; distributed programming; electron accelerators; high energy physics instrumentation computing; programming environments; storage rings; synchrotrons; Advanced Photon Source; Procedure Execution Manager; Tcl/Tk; booster rf systems; distributed processing; dp-tcl; low-energy transport; positron accumulator ring; scripting environment; shutdown; start-up; tune-up; Automatic control; Control systems; Distributed processing; Environmental management; Humans; Libraries; Monitoring; Positrons; Pulsed power supplies; Switches;
