ARTICLE:ANALYSIS_BY[name] student0
ARTICLE:ANALYSIS_TIME[minutes] 9
ARTICLE:COMMENT[string] 
ARTICLE:COMMERCIAL_EFFORT[none,part,full] part
ARTICLE:GRANT_SUPPORT[none or string] Supported in part by NSF grant CCF-1016495, a Sloan Research Fellowship, and gifts from Microsoft and Google.
ARTICLE:NSF-SUPPORT[none or number] CCF-1016495 
ARTICLE:IMPLEMENTATION_EXISTS[unknown,hardware,yes,no] yes
ARTICLE:LINK[url] http://doi.acm.org/10.1145/2150976.2151008
ARTICLE:STATUS[not_finished,finished]  finished
BIBTEX:LABEL[string] EsmaeilzadehSCB12
AUTHOR:NAMES[list of first_last] Hadi_Esmaeilzadeh Adrian_Sampson Luis_Ceze Doug_Burger 
BIBTEX:LINK[url] http://dblp.uni-trier.de/rec/bibtex/conf/asplos/EsmaeilzadehSCB12
BUILD:ANALYSIS_BY[name] 
BUILD:ANALYSIS_TIME[minutes] 
BUILD:COMMENT[string] 
BUILD:STATUS[one of {unknown,needed,not_needed,started,finished} and list of {downloaded,compiles,runs}] unknown 
BUILD:ERROR_COMMENT[none,not_needed,comment] not_needed
EMAIL:STATUS[unknown,not_needed,not_found or list of {needed,request_1,response_1,sent_thank_you}] needed 
PI:COMMENT_CC[string] 
PI:COMMENT_TP[string] The experimental part clearly uses simulation techniques, which would be software, and they assume some sort of processing to know where approximation can be used and I assume that that represents software as well.
TOOL:NAME[string] Truffle 
TOOL:ARTICLE_LINK[unknown,none,url,broken and url] none 
TOOL:GOOGLE_LINK[unknown,none,url,broken and url] none 
TOOL:EMAIL_LINK[unknown,none,sent_no_url,url,broken and url]  
TOOL:DATA_LINK[unknown,none,url,broken and url]  
VERIFY:ANALYSIS_BY[name] student1
VERIFY:STATUS[unknown,needed,not_needed,started,finished] finished
VERIFY:COMMENT[string] I think this is a hardware implementation 'we propose an efficient mapping of disciplined approximate programming onto hardware '
EMAIL1:CODE_AVAILABLE[yes,no,no_response] 
EMAIL1:REMARK[comment]