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- Installing the openPDC on Linux and Mac, March 2015
- Automated gap filling with the openPDC and substationSBG, March 2015
- The new OSIsoft PI Adapter for the openPDC, March 2015
- Configurable levels to describe device performance.
- Yesterday’s performance compared to the last 4 calendar days.
- A high level summary of device availability for the last 30 days.
- A detailed list of specific PMU performance for the day of the report.
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Input Status & Monitoring screen can now handle PDC stream with higher latency by setting Relative Time Offset in System Settings page.
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Added a “Copy” button on Browse Devices as well as Manage Output Stream screens
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Added a new configuration option on the Input Wizard screen to create or update configuration manually.
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Modified code to persist database connection from one function call to another for improved performance
this is a 10x speed improvement for some databases. -
Better user experience on Input Wizard screen, quick links on the home page for easier navigation, wrapping of large tool-tips in to multiple lines, advanced configuration options for output stream are collapsed by default and allows users to expand if needed, added Check-All checkbox on Output Stream Wizard screens, master-detail pages selects first record by default, etc along with number of bug fixes and improvements.
Various performance and stability enhancements are included with this release (see the change log for details) along with additional benefits, including fundamental multi-threading improvements, coming from the upgrade to .NET 4.0. Simplicity was targeted at both ease-of-use in the user interface and a simplified system installation. This version of the openPDC comes with a completely new, tightly integrated GUI based version of the openPDC manager. The GUI manager automatically installs along with the openPDC so no further setup or installation will be required to use the system. The web based openPDC manager is still available for web based deployments where desired, but this is now an optional component and the more complicated IIS installation can be turned over to IT staff.
The August 2010 release includes over 180 commits, an upgrade to Visual Studio 2010 and separation of the major products and frameworks. We look forward to your comments. See the full feature list preview for more information.
- Deployment, implementation and configuration services
- Software patch and upgrade services
- Custom software engineering, trouble-shooting and consulting services
- Technical support services via on-line, email and telephone as well as on-site services
- Training services
http://www.phasordata.com
Please contact Paul Sung for further information at
[email protected]
June 30, 2010 The Grid Protection Alliance has deployed the June 2010 release of the openPDC as a stable build today. Industry feedback and operational experience has informed numerous improvements and additions in this latest version to further
improve usability and add desired features all while maintaining high reliability. One of these great new features is a user can add a PMU or concentrator into the system directly using only the openPDC manager. It will query the device’s configuration
using connection information fed to the openPDC and the resulting configuration will be added directly into the New Device Wizard for addition into the system. Additionally the solidified security stance sees other improvements with the release of an authentication
API in the Framework along with support for encrypted settings when using the Configuration Editor. Compatibility has been expanded with options for native 64-bit installers for the PMU Connection Tester and the openPDC. Further an overhauled database structure
includes support for a new statistics feature which will track important metrics expected to be needed by grant awardees. A Database Upgrade Utility will allow the user to migrate the data from the existing database into the new schema. Overall there are more
than 300 improvements made in various portions of the code and the primary submitters to the project at Grid Protection Alliance look forward to your comments. See the
full feature list preview for more information.
May 4, 2010 The source code and current build for the
NASPI PMU Registry has been added to the openPDC open source community. The purpose of the PMU Registry is to provide a structure for mapping synchrophasor data from multiple substations and multiple utilities so that this data can be used as an integrated
set of information with all parties knowing where and how the phasor measurements are taken. As a name server, one of the most important services of the PMU registry is provide attribute information about phasor measurements as based on a unique measurement
key.
May 1, 2010 The June 2010 production release of the openPDC is close approaching and we've been working hard to add some important features to the openPDC as well as to make it the most stable and feature rich version of the system ever. Some
of these features include multi-mode down-sampling, improved support for IPv6, more fault tolerant PMU handling, ability to use cached device configurations for pure UDP streams without the need for the device to periodically send a configuration frame, preemptive
publishing that allows the PDC to send data frames ahead of schedule so long as all the expected data has arrived, several common power system calculations including loss-of-field and frequency excursion detection, a new discarded flag that will archive if
a measurement actually made it into the real-time stream, streaming playback utility that can be used to replay events from the local historian archive and extract large datasets, as well as several major productivity enhancements to the openPDC Manager including
automatic retrieval of device configuration without the need to upload a configuration file and many popup connection string builders to simply system configuration. See the
full feature list preview for more information on this highly anticipated release.
April 1, 2010 The
Grid Protection Alliance (GPA) has assumed responsibility for the maintenance and development of the openPDC. GPA is building on the six years of work on the openPDC by the Tennessee Valley Authority. TVA will continue to be a major user of the openPDC
as they operate the major PDC for the US Eastern Interconnection. GPA is a not-for-profit corporation whose mission is to support the electric utility industry. GPA has entered into a contract with NERC to improve the openPDC to enable it to be implemented
as a multi-node system that will enable the reliable and cost effective collection of phasor data in the US.
March 3, 2010 As the openPDC is being widely adopted, many vendors are now in the process of providing commercial plug-in's and connectivity to the openPDC that work directly with their products. You can now monitor the
openPDC Commercial Extensions page to watch for vendor supported commercial products that directly integrate with the openPDC.
February 23, 2010 Broken URL[http://www.areva-td.com] AREVA T&D has announced commercial support of the openPDC, here is the official statement:
“AREVA is pleased to provide support services to companies who would like to implement the openPDC. These services include:
- Deployment of the openPDC,
- Configuration of the openPDC to communicate with existing PMUs and PDCs
- Annual maintenance support for resolution of critical openPDC software issues
- Periodic implementation of openPDC software patches and upgrade releases
- Training
- openPDC customization & related consulting services
Please contact Jay Giri for further information at
[email protected] ”
January 28, 2010 We are excited to introduce the openPDC Management System! As you know, the primary components of
openPDC Management System have been under development for some time. In the latest code release you will find a very useful application called the “openPDC Manager” that is used to manage multiple openPDC instances from one simple to use web application.
It provides tremendous improvements that simplify configuration and operation of the openPDC, including a device configuration wizard that will take a configuration collected directly from a device and use this information to automatically configure the system.
Click
here for more information.
Other recent developments include the addition of the openPDC Data Quality and Monitoring System that allows users to monitor any number of
system signals for quality. The data quality system currently includes a range tester, a data flat-line tester and a timestamp quality tester. The quality monitoring system also includes a series of web services that allow consumers to take monitored signal
quality and integrate the results into existing operational alarming systems. Click
here for more information.
October 7, 2009 The Tennessee Valley Authority (TVA ) is pleased to publicly provide the source code for its data concentration software known in the industry as the Super Phasor Data Concentrator (SPDC)
-- see BROKEN URL [http://www.tva.gov/news/releases/octdec09/data_collection_software.htm]
press release. It is our hope that this code will be used to support the development of the smart grid and facilitate the Department of Energy (DOE) plans to accelerate the use of synchrophasors in the U.S. as
part of the BROKEN URL [http://www.energy.gov/news2009/7503.htm] federal economic stimulus programs. We believe that this software will be an enabling technology for both vendors and the electric power system industry as a whole.
The open source phasor data concentrator (openPDC) is a system that is used to manage, process and respond to dynamic changes in fast moving streaming phasor data. More specifically, the openPDC can process any kind of data that can be described as “time-stamped
measured values”. These measured values are simply numeric quantities that have been acquired at a source device and are typically called points, signals, events, time-series values or
measurements. Examples of measurements include temperature, voltage, vibration, location, luminosity and, of course, phasors. When a value gets measured, an exact timestamp is taken, typically using a GPS-clock for accuracy – the value, along
with its timestamp, is then streamed to the openPDC where it can be “time-aligned” with other incoming measurements so that an action can then be taken on a complete
slice of data that was all measured at the exact same moment in time.
Although the system was specifically developed to manage real-time streaming synchrophasors and generate time-sorted concentrated data streams using standard protocols, its completely modular based design makes the system a general purpose
distributed stream processing engine. This adaptive system design also makes it simple to integrate the openPDC with other systems that you may want to use to help manage and archive streaming
event data (e.g., Microsoft's StreamInsight CEP Platform,
OSIsoft's PI Historian, etc.) The openPDC will have a broad range of uses outside of synchrophasors where real-time streaming measured data needs to be processed and archived, for example: consumer energy usage (smart-grid), seismic metering, high-speed
location tracking, fast changing temperature monitoring, surveillance applications, network traffic processing, etc.
Below is an image that shows the openPDC modular system design used to manage streaming measurements. User defined input adapters are used to collect streaming data and assign incoming measurements an ID. Measurements are then sorted by time and passed along
to custom action adapters that process the data. Finally, all measurements are sent to output adapters that are used to queue up data for archival. The high level data flow is:
map, sort, queue where map is the step of assigning an ID to a measurement,
sort is the step of sorting the measurements by time so that an action can be taken, and
queue is the step of queuing up measurements so they can sent to different outputs. The system loads user defined “assemblies” to perform all of these steps – that is, users can develop their own input, action and output adapters
to provide extensible processing of any streaming measured data. The project includes a variety of adapters to make the system operate as a “phasor data concentrator” as well as to archive time-series measurements into files that can be processed
in bulk by Hadoop. The map-reduce code needed to allow Hadoop to mass process the time-series archive files is also included.
Click here for a technical diagram that more accurately describes the adapter relationships and data flows.
TVA began development of a Phasor Data Concentrator (PDC) in 2004, in order to advance the efforts of the Eastern Interconnection Phasor Project (EIPP). With the help of this system the EIPP continued to grow, is now under
NERC oversight and has been expanded as the North American Synchrophasor Initiative (NASPI). TVA has made this PDC available to the public as an open source project called the openPDC.
Phasor measurements complement traditional electric utility control systems and measure electrical information on the grid in order to determine its health. The electric system information is
sampled at very high speeds with individual measured values getting transmitted at 30 times per second. Each measurement carries a precise time stamp taken from GPS satellites so that the electric grid can be analyzed at a specific (synchronized) time (see
also: BROKEN URL [https://naspi.tva.com/PhasorMeasurementData/Documents/WhatIsAPhasor.ppt]
What is a phasor?). Advancing the use of these "synchrophasors" is considered to be among the most important next steps to the improvement of power systems.
TVA was among the early pioneers in the use of synchrophasors having installed its first phasor measurement units (PMUs) in 1993. TVA currently collects information from over 120 PMUs throughout the eastern half of North America. Data continually streams to
the TVA SPDC from locations ranging from Miami, Florida to Manitoba, Canada.
Click for larger image
The current implementation of this project at TVA handles:
- Space utilization rate of 1.5 GB/hr (36 GB a day)
- Measurement archival rate of 150 million/hr (3.6 billion a day)
- 120 online PMUs
- 1850 defined measurements
As of October 2009 the total synchrophasor storage totals more than 20TB.
We provided the openPDC to the public with the goal that users would take the code and extend it. In the spirit of this cooperative effort, here are some items we are hoping the openPDC community can help with:
- Building n-unit tests around critical system components
- Additional needed protocol parsers (e.g., IEC 61850)
- Standard historian output adapters (e.g., OSI-PI, Instep, etc.)
- Common useful action adapters (e.g., typical power calculations)
- Improvements in security, optimizations and efficiency
- Continued development of operational documentation
Click
here for more information on becoming an openPDC developer.
| J. Ritchie Carroll | Brian B. Fox |
| Pinal C. Patel | Josh L. Patterson |
| F. Russell Robertson | Mehulbhai Thakkar |
| Paul B. Trachian | Stephen C. Wills |
| Darrell Zuercher | Jian Ryan Zuo |
| Andy Hill | Galen Riley |
| Mihir Brahmbhatt | Arnold Stadlin |
| Andrew Krohne | Aniket Salver |
| Tim Yardley | Erich Heine |
| Steven Chisholm | Chuanlin Zhao |
| Barbara Motteler | Vijay Sukhavasi |
| Shyni John | Jeffery Kinzer |
| Steven A. Lowe | John H. Shugart |
| Tim M. Shults | Magdiel Lorenzo |
| S. Danyelle Gilliam |
| Rob St. Andre | Craig Goodwin |
| Matthew Hauer | Rakesh Bobba |
| Alan Karlak | Himanshu Khurana |
| Austin White | Scott Staples |
| Mani Venkatasubramanian | Luigi Vanfretti |
| Moustafa Chenine | Patrick Pentz |
| David A. McKinnon | Mark D. Hadley |
| Manu Parashar |
Also special thanks to JetBrains for creating excellent products like ReSharper and supporting open source projects like the openPDC.
Tags:
complex event concentrator data concentrator event processing event stream FNET gateway GPA Grid Protection Alliance Hadoop historian IEEE 1344 IEEE C37.118 IEC 61850-90-5 Macrodyne map reduce measurement routing NASPI NASPInet openPDC PDC Phasor PMU protocol parsing real-time SEL Fast Message smart grid smartgrid sockets stream processing streaming data Synchrophasor time-series data TVA
Last edited Aug 7 at 2:46 PM by ritchiecarroll, version 241
Migrated from CodePlex Sep 30, 2015 by ajs
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