I recently published an update on power and cooling in the data center (http://www.forrester.com/go?docid=60817), and as I review it online, I am struck by the combination of old and new. The old – the evolution of semiconductor technology, the increasingly elegant attempts to design systems and components that can be incrementally throttled, and the increasingly sophisticated construction of the actual data centers themselves, with increasing modularity and physical efficiency of power and cooling.
The new is the incredible momentum I see behind Data Center Infrastructure Management software. In a few short years, DCIM solutions have gone from simple aggregated viewing dashboards to complex software that understands tens of thousands of components, collects, filters and analyzes data from thousands of sensors in a data center (a single CRAC may have in excess of 20 sensors, a server over a dozen, etc.) and understands the relationships between components well enough to proactively raise alarms, model potential workload placement and make recommendations about prospective changes.
Of all the technologies reviewed in the document, DCIM offers one of the highest potentials for improving overall efficiency without sacrificing reliability or scalability of the enterprise data center. While the various DCIM suppliers are still experimenting with business models, I think that it is almost essential for any data center operations group that expects significant change, be it growth, shrinkage, migration or a major consolidation or cloud project, to invest in DCIM software. DCIM consumers can expect to see major competitive action among the current suppliers, and there is a strong potential for additional consolidation.
Last year I wrote about Oracle’s new plans for SPARC, anchored by a new line of SPARC CPUs engineered in conjunction with Fujitsu (Does SPARC have a Future?), and commented that the first deliveries of this new technology would probably be in early 2012, and until we saw this tangible evidence of Oracle’s actual execution of this road map we could not predict with any confidence the future viability of SPARC.
The T4 CPU
Fast forward a year and Oracle has delivered the first of the new CPUs, ahead of schedule and with impressive gains in performance that make it look like SPARC will remain a viable platform for years. Specifically, Oracle has introduced the T4 CPU and systems based on them. The T4, an evolution of Oracle’s highly threaded T-Series architecture, is implemented with an entirely new core that will form the basis, with variations in number of threads versus cores and cache designs, of the future M and T series systems. The M series will have fewer threads and more performance per thread, while the T CPUs will, like their predecessors, emphasize throughput for highly threaded workloads. The new T4 will have 8 cores, and each core will have 8 threads. While the T4 emphasizes highly threaded workload performance, it is important to note that Oracles has radically improved single-thread performance over its predecessors, with Oracle claiming performance per thread improvements of 5X over its predecessors, greatly improving its utility as a CPU to power less thread-intensive workloads as well.