IBM Rome Software Lab

The IBM Rome Software Lab (formerly known as IBM Tivoli Rome Laboratory) is one of the largest software development laboratories in Italy, and one of the largest IBM Software Group Labs in Europe.

Founded in 1978, the Rome Lab (located in Rome) now has more than 550 professionals among software developers, project managers, IT specialists, and IT architects. The main mission of the Rome Lab is focused on IBM Tivoli development, including Tivoli Configuration Manager, Tivoli Remote Control, Tivoli Workload Scheduler, and Tivoli Monitoring.

In 2004, the laboratory focused on the adoption of the IBM Rational Unified Process (RUP) in Tivoli and in the wider Software Group inside IBM.[1] In 2007, IBM opened the "Rome SOA Leadership Center" hosted by and formed with a team of experts on service-oriented architecture (SOA) coming from the IBM Rome Software Laboratory.[2] The Rome laboratory constantly collaborates with Italian Universities and Research Centers.[3][4]

Another portion of this reality is the "Rome Solutions Lab", which includes two main areas: the "Publishing" area involved in the development, support and delivery of the IBM NICA (Networked Interactive Content Access); and the "Industry Solutions" area, an internal development organization, working on the development, support and delivery of customer software solutions based on and providing extensions to IBM Software Group products.

References and footnotes

gollark: You'd need rails or something all the way across the Atlantic.
gollark: Oh, and possible new transport thing for the ultrarich: suborbital rocket to a different continent.
gollark: That sounds very cool if quite possibly impractical.
gollark: There aren't that many alternatives.
gollark: Personally, my suggested climate-change-handling policies:- massively scale up nuclear fission power, it's just great in most ways- invest in better rail infrastructure - maglevs are extremely cool™ and fast™ and could maybe partly replace planes?- electric cars could be rented from a local "pool" for intra-city transport, which would save a lot of cost on batteries- increase grid interconnectivity so renewables might be less spotty- impose taxes on particularly badly polluting things- do research into geoengineering things which can keep the temperature from going up as much- increase standards for reparability; we lose so many resources to randomly throwing stuff away because they're designed with planned obsolecence- a very specific thing related to that bit above there - PoE/other low-voltage power grids in homes, since centralizing all the AC→DC conversion circuitry could improve efficiency, lower costs of end-user devices, and make LED lightbulbs less likely to fail (currently some of them include dirt-cheap PSUs which have all *kinds* of problems)
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