ADVISORY, Aug. 1, 2014 (GLOBE NEWSWIRE) -- What: FARO Technologies, Inc. (Nasdaq:FARO), the world's most trusted source for 3D measurement, imaging and realization technology, will visit the NASDAQ MarketSite in Times Square. In honor of the occasion, FARO's Senior Leadership Team will ring the Closing Bell. Where: NASDAQ MarketSite – 4 Times Square – 43 rd & Broadway – Broadcast Studio When: Monday, August 4, 2014 – 3:45 p.m. to 4:00 p.m. ET FARO Technologies Contact: Nancy Setteducati (407) 333-9911 Nancy.Setteducati@faro.com NASDAQ MarketSite: Christine Barna (646) 441-5310 Christine.Barna@nasdaqomx.com Feed Information: Fiber Line (Encompass Waterfront): 4463 Gal 3C/06C 95.05 degrees West 18 mhz Lower DL 3811 Vertical FEC 3/4 SR 13.235 DR 18.295411 MOD 4:2:0 DVBS QPSK Social Media: For multimedia features such as exclusive content, photo postings, status updates and video of bell ceremonies please visit our Facebook page at: http://www.facebook.com/NASDAQ. For photos from ceremonies and events visit our Instagram Page: http://instagram.com/nasdaq. For news tweets, please visit our Twitter page at: http://twitter.com/nasdaqomx. For exciting viral content and ceremony photos visit Tumblr Page: http://nasdaq.tumblr.com/. Webcast: A webcast of the NASDAQ Closing Bell will be available at: https://new.livestream.com/nasdaq/live or http://www.nasdaq.com/about/marketsitetowervideo.asx. Photos: To obtain a hi-resolution photograph of the Market Close, please go to http://www.nasdaq.com/reference/marketsite_events.stm and click on the market close of your choice. About FARO Technologies, Inc. (Nasdaq:FARO): FARO is the world's most trusted source for 3D measurement technology. The Company develops and markets computer-aided measurement and imaging devices and software. Technology from FARO permits high-precision 3D measurement, imaging and comparison of parts and complex structures within production and quality assurance processes. The devices are used for inspecting components and assemblies, rapid prototyping, documenting large volume spaces or structures in 3D, surveying and construction, as well as for investigation and reconstruction of accident sites or crime scenes.