6,328 research outputs found

    The New Hampshire Greenhouse Gas Emissions Reduction Fund: Year 3 (July 2011-June 2012) Evaluation

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    The Greenhouse Gas Emissions Reduction Fund (GHGERF) was created by the New Hampshire legislature in 2008 and has been administered by the New Hampshire Public Utilities Commission (PUC). The purpose of the Fund was to support energy efficiency, energy conservation, and demand response programs to reduce New Hampshire’s greenhouse gas emissions. Funding was derived from the State’s participation in the Regional Greenhouse Gas Initiative (RGGI), a cooperative effort by nine northeastern states to reduce carbon dioxide emissions in the electric power sector via a cap and trade program. As of June 2012, RGGI auctions have resulted in revenues to New Hampshire of 38.7million,ofwhich38.7 million, of which 21.8 million had been paid out to grants through June 2012. These funds have been distributed primarily through a competitive grant process administered by the PUC. The total amount of GHGERF grant awards is equal to 0.5% of the 6billionthatNewHampshirespendsannuallyonenergyacrossallsectors.ThesegrantsfundedawidevarietyofprojectsandprogramswhichdirectlybenefittedNewHampshirehomes,schools,businesses,towns,andnon−profitorganizations.DetailsforeachgrantawardareavailableatthePUC’swebsite.CompletedprojectssupportedbyGHGERFfunds(asofJune2012)haveresultedinannualreductionsoffossilfuelenergyuseinNHby227,400millionBTUs(MMBTUs).Additionally,theGHGERFcreatesannualenergysavingsforNHresidentsandbusinessesofover6 billion that New Hampshire spends annually on energy across all sectors. These grants funded a wide variety of projects and programs which directly benefitted New Hampshire homes, schools, businesses, towns, and non-profit organizations. Details for each grant award are available at the PUC’s website. Completed projects supported by GHGERF funds (as of June 2012) have resulted in annual reductions of fossil fuel energy use in NH by 227,400 million BTUs (MMBTUs). Additionally, the GHGERF creates annual energy savings for NH residents and businesses of over 6.7 million and reduces annual carbon dioxide emissions by 22,900 metric tons. Cumulative energy savings due to projects completed as of June 2012 are estimated to be 4.0 million MMBTUs through 2030. NH residents and businesses are expected to save $107.8 million through 2030 based on current energy prices. Carbon dioxide emissions reductions are estimated to be 366,500 metric tons through 2030. In addition to energy reductions, GHGERF has supported energy efficiency workforce development for 700 workers with over 11,300 training hours (as of June 2012). GHGERF has also financially supported almost 2,300 building benchmarking and energy audit evaluations. During the past three years, GHGERF has delivered significant energy savings and served a wide-base of residential, commercial, and industrial energy customers throughout New Hampshire. The experience and capacity built during the three year period allowed GHGERF to deliver the highest amount of energy saved per dollar spent during this past reporting period. The model of having a central specialized expert organization work with multiple energy customers, as seen in all of the grants awarded in 2010, has proven to be a successful one and should be considered as NH’s RGGI program shifts to the NH electric utility energy efficiency programs

    An Evaluation of the NH BetterBuildings Program

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    Insights into the Fallback Path of Best-Effort Hardware Transactional Memory Systems

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    DOI 10.1007/978-3-319-43659-3Current industry proposals for Hardware Transactional Memory (HTM) focus on best-effort solutions (BE-HTM) where hardware limits are imposed on transactions. These designs may show a significant performance degradation due to high contention scenarios and different hardware and operating system limitations that abort transactions, e.g. cache overflows, hardware and software exceptions, etc. To deal with these events and to ensure forward progress, BE-HTM systems usually provide a software fallback path to execute a lock-based version of the code. In this paper, we propose a hardware implementation of an irrevocability mechanism as an alternative to the software fallback path to gain insight into the hardware improvements that could enhance the execution of such a fallback. Our mechanism anticipates the abort that causes the transaction serialization, and stalls other transactions in the system so that transactional work loss is mini- mized. In addition, we evaluate the main software fallback path approaches and propose the use of ticket locks that hold precise information of the number of transactions waiting to enter the fallback. Thus, the separation of transactional and fallback execution can be achieved in a precise manner. The evaluation is carried out using the Simics/GEMS simulator and the complete range of STAMP transactional suite benchmarks. We obtain significant performance benefits of around twice the speedup and an abort reduction of 50% over the software fallback path for a number of benchmarks.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech

    Spectroscopy of D-type asteroids

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    We have performed a spectroscopic survey of 19 D-type asteroids. Comparison with previous photometry shows excellent agreement. Although the majority have similar colors to cometary nuclei, no cometary emission bands were present in any of the spectra. Absorption bands sporadically appearing were apparently due to stellar objects, and no features inherent to the asteroids were observed

    CFH Y402H Confers similar risk of soft Drusen and both forms of advanced AMD

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    Journal ArticleBACKGROUND: Age-related macular degeneration (AMD) is the most common cause of irreversible visual impairment in the developed world. The two forms of advanced AMD, geographic atrophy and neovascular AMD, represent different pathological processes in the macula that lead to loss of central vision. Soft drusen, characterized by deposits in the macula without visual loss, are considered to be a precursor of advanced AMD. Recently, it has been proposed that a common missense variant, Y402H, in the Complement Factor H (CFH) gene increases the risk for advanced AMD. However, its impact on soft drusen, GA, or neovascular AMD--or the relationship between them--is unclear. METHODS AND FINDINGS: We genotyped 581 Icelandic patients with advanced AMD (278 neovascular AMD, 203 GA, and 100 with mixed neovascular AMD/GA), and 435 with early AMD (of whom 220 had soft drusen). A second cohort of 431 US patients from Utah, 322 with advanced AMD (244 neovascular AMD and 78 GA) and 109 early-AMD cases with soft drusen, were analyzed. We confirmed that the CFH Y402H variant shows significant association to advanced AMD, with odds ratio of 2.39 in Icelandic patients (p = 5.9 x 10(-12)) and odds ratio of 2.14 in US patients from Utah (p = 2.0 x 10(-9)) with advanced AMD. Furthermore, we show that the Y402H variant confers similar risk of soft drusen and both forms of advanced AMD (GA or neovascular AMD). CONCLUSION: Soft drusen occur prior to progression to advanced AMD and represent a histological feature shared by neovascular AMD and GA. Our results suggest that CFH is a major risk factor of soft drusen, and additional genetic factors and/or environmental factors may be required for progression to advanced AMD

    New rr-Matrices for Lie Bialgebra Structures over Polynomials

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    For a finite dimensional simple complex Lie algebra g\mathfrak{g}, Lie bialgebra structures on g[[u]]\mathfrak{g}[[u]] and g[u]\mathfrak{g}[u] were classified by Montaner, Stolin and Zelmanov. In our paper, we provide an explicit algorithm to produce rr-matrices which correspond to Lie bialgebra structures over polynomials

    Clustering of vacancy defects in high-purity semi-insulating SiC

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    Positron lifetime spectroscopy was used to study native vacancy defects in semi-insulating silicon carbide. The material is shown to contain (i) vacancy clusters consisting of 4--5 missing atoms and (ii) Si vacancy related negatively charged defects. The total open volume bound to the clusters anticorrelates with the electrical resistivity both in as-grown and annealed material. Our results suggest that Si vacancy related complexes compensate electrically the as-grown material, but migrate to increase the size of the clusters during annealing, leading to loss of resistivity.Comment: 8 pages, 5 figure
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