5 September 2011

Classified iDAVE Uranium Sample Search Engine

Cryptome Nuclear Power Plants and WMD Series: http://cryptome.org/nppw-series.htm

VZCZCXYZ0007
OO RUEHWEB

DE RUEHUNV #0571/01 3510910
ZNY SSSSS ZZH(CCY ADXEF6C80 MSI3633 532A)
O 170910Z DEC 09 ZDS ZDS
FM USMISSION UNVIE VIENNA
TO RUEHC/SECSTATE WASHDC IMMEDIATE 0435
RHEBAAA/DOE WASHDC IMMEDIATE
INFO RUEHOT/AMEMBASSY OTTAWA IMMEDIATE 0005
RHMFISS/HQ AFTAC PATRICK AFB FL IMMEDIATE

S E C R E T UNVIE VIENNA 000571 
 
NOFORN 
 
C O R R E C T E D   C O P Y  (CLASSIFICATION) 
 
SIPDIS 
 
ISN/RA MONGIELLO; NA-241 O'CONNOR; LLNL HUTCHEON; AFTAC FOR 
CHARLES BRENNAN 
 
E.O. 12958: DECL: 12/17/2034 
TAGS: AORC KNNP IAEA ENRG TRGY
SUBJECT: MEETING WITH IAEA TO DEMO URANIUM DATABASE AND 
IDAVE SEARCH ENGINE 
 
Classified By: AMBASSADOR GLYN DAVIES FOR REASONS 1.4 (B) AND (D) 
 
1.  (S) Summary: At a December 9 meeting, IAEA Deputy 
Director General for Safeguards (DDG) Heinonen reaffirmed the 
IAEA's long-term willingness to participate with the U.S. in 
a joint effort to maintain a database of global signatures of 
uranium yellowcake (and other forms of uranium). 
Representatives from the Departments of State and Energy and 
Lawrence Livermore National Lab (LLNL), accompanied by 
MsnOffs, met with Heinonen to demonstrate the uranium 
sourcing database and accompanying internet-based search 
engine, the Discriminate Analysis Verification Engine 
(iDAVE).  The demo, presented by LLNL's Ian Hutcheon and 
Martin Robel, consisted of a walk-through of how the iDAVE 
database works followed by a discussion of future cooperation 
between the IAEA and LLNL on sample analysis and data 
interpretation.  Responding to Heinonen's positive reaction 
to the presentation, DepCounselor encouraged the IAEA to 
maximize the number of samples taken during safeguards 
inspections (especially in locales such as Iran, Syria, and 
other states in which the U.S. would not otherwise have data) 
and indicated a U.S. willingness to fund analysis of as many 
samples as the IAEA is able to collect.  Next steps in the 
joint project will be a return visit by LLNL experts in 
January/February 2010 timeframe to establish IAEA 
connectivity so that select safeguards inspectors will be 
able to query iDave directly.  Finally, Heinonen reaffirmed 
his previous request to treat with discretion the knowledge 
of the close U.S.-IAEA collaboration on this database, given 
that the Agency is providing the USG with information on the 
origins of samples that it would not share with other member 
states.  End Summary 
 
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iDAVE - On the Brink of Going Live 
---------------------------------- 
 
2.  (S) During the December 9 meeting with Olli Heinonen 
and Maxim Penkin, LLNL's Ian Hutcheon opened by noting that, 
of the approximately 130 samples the IAEA has sent to LLNL 
since January 2007, roughly two-thirds have been analyzed and 
the results returned to the Agency.  In return, the IAEA has 
provided source location information for roughly half of the 
130 samples.  The internet-based search engine which operates 
on the uranium sourcing database, iDAVE, should be ready to 
'go live' within four-to-eight weeks, or before the end of 
February 2010, Hutcheon said.  By that time the IAEA will be 
sent one-time password tokens from LLNL to be able to access 
the database system from their IAEA computers.  LLNL experts 
explained that the server had not yet been physically 
transferred to its new location at LLNL or connected to 
LLNL's "Blue" network for secure, unclassified communication. 
 LLNL also needs to complete the installation of new 
web-based protocols to allow VPN access to the Blue network. 
These two actions are expected to take place before the end 
of January 2010. 
 
----------------------------- 
TECHNICAL DISCUSSION OF iDAVE 
----------------------------- 
 
3.  (S) During the meeting with DDG Heinonen, LLNL gave a 
live presentation of iDAVE, using an internet connection to 
the iDAVE server, to demonstrate how one would use the search 
engine to derive sourcing information about uranium ore 
concentrate, or other uranium bearing, samples.  During the 
presentation, there was discussion of some of the technical 
aspects of the database.  For example, one issue concerned 
the potential difference between the point of origin and 
point of collection of samples that the IAEA sends to LLNL 
for analysis.  Inspectors cannot always know that samples 
found in a particular facility originated in that location. 
Nonetheless, the IAEA reaffirmed that it tries to send as 
much information as possible about the origin of the samples 
to LLNL.  In (rare) cases where the IAEA simply does not have 
enough information to determine the point of origin or other 
useful information about a sample, it will not send that 
sample to LLNL for analysis. 
 
4.  (S) The discussion also covered the basic operating 
principles of iDAVE, which currently uses 16 parameters 
common to all samples in the database.  While this is a 
relatively small number (the IAEA expects there to be at 
least 60 parameters for samples measured since 2007), it was 
noted that the number of parameters will grow as additional 
analyses of samples already in the database are completed by 
the participating DOE laboratories and the number of samples 
in the database gets larger.  (Note: There are approximately 
2,000 samples from other sources in addition to those 
provided by the IAEA currently in the database.  End Note.) 
The technical discussion also addressed the various types of 
information that iDAVE will be capable of providing, i.e., 
not only country or facility of origin but also descriptive 
statistics relating to the certainty with which the 
assignment of a source location is made. 
 
5.  (S) During the presentation, the IAEA raised a 
question concerning the ability of iDAVE to return 
information concerning the number of samples in the database 
with a specific set of characteristics in addition to the 
normal query based on specific measurements of a sample to 
find point of origin matches. LLNL replied that while iDAVE 
does not currently provide this information, it would be 
relatively simple to add the option to generate this 
information in the next version of iDAVE.  It is likely that 
the IAEA will be using the latter type of query once access 
is granted. 
 
--------------------------------------------- -- 
POTENTIAL COOPERATION WITH AUSTRALIA AND CANADA 
--------------------------------------------- -- 
 
6.  (S) During the discussion, Senior Safeguards Analyst 
Maxim Penkin noted that there is potential for cooperation 
with Canada and Australia to study how trace elements behave 
during the process of converting uranium ore to UF6.  He 
explained that the amount of data the IAEA expects to gain 
from Australia and Canada could be quite large and should 
therefore be entered into the database.  LLNL and Msnoffs 
agreed that this would be a very good idea.  (Comment: 
LLNL/DOE has a current project with the Australian National 
Safeguards Office to provide similar information for U-ore of 
Australian origin.) 
 
-------------------------------------- 
FOLLOW-UP TECHNICAL EXPERTS DISCUSSION 
-------------------------------------- 
 
7.  (S) Following the initial briefing to DDG Heinonen, a 
technical experts discussion took place with Penkin, IAEA 
Safeguards Analyst Ke Zhao, Hutcheon, Robel, MsnOff and 
Washington rep to review the details of iDAVE.  LLNL walked 
through the various steps to access the iDAVE search engine 
and answered the IAEA's questions.  One issue that 
continually arose concerned the IAEA's access to the raw data 
in the database.  LLNL reiterated that at this juncture, the 
strong U.S. preference is to maintain one copy of the actual 
data at LLNL to ensure additions to the data are uniform. 
Further technical questions concerned how samples are grouped 
together when an analysis is performed by iDAVE, and whether 
or not multiple samples can be analyzed at one time.  LLNL 
attempted to log in to the database using an IAEA computer 
(the previous demonstration was performed using an LLNL 
laptop computer).  However, there were technical 
difficulties, possibly related to a firewall at the IAEA, 
which will have to be resolved at LLNL.  Ian Hutcheon and/or 
Martin Robel agreed to return to Vienna before the end of 
February to provide an additional tutorial once the web-based 
version of iDAVE is fully operational and access is provided 
to the IAEA.  The meeting concluded with a discussion of next 
steps. 
 
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NEXT STEPS 
---------- 
 
8.  (S) At the conclusion of the meeting with Heinonen, 
the issue of maximizing IAEA sample-taking was discussed in 
light of Heinonen's strong support for continued 
collaboration on the database.  DepCounselor reiterated that 
samples of uranium from states of critical safeguards 
interest are of particularly high value, given that the U.S. 
does not generally have other means for collecting such data 
from those states.  DepCounselor urged the IAEA to take as 
many such samples as possible and indicated U.S. willingness 
to undertake and fund the requisite analysis.  Heinonen noted 
that the IAEA is beginning to receive an increasing number of 
samples from Kazakhstan and Uzbekistan, which could help 
populate the database and provide useful information.  Maxim 
Penkin further noted that the majority of the IAEA's current 
samples are from Iran.  (Comment:  All parties recognized 
that samples from critical countries (i.e. Iran, DPRK, Syria) 
are of major benefit to the value of the database and further 
collections will continue to be a vital part of this project. 
 End comment.) 
DAVIES