From: To: ; ; ; ; ; ; ; ; ; ; Subject: parallel platform options study (by Dave Seckel) Date: Thursday, February 10, 2000 10:38 AM Dear MRI Co-Is Dave Seckel has done a very nice job in preparing a document htat compares some options that we have been considering for the parallel computing purchase under the MRI grant. He has dome a lot of work talking to vendors, etc. His report is attached below. It consists of a text document, an Excel spreadsheet and a postscript file. As he suggests you could just look at the postscript and the summary section. But I found the whole document interesting. I would be interested in getting reactions or comments, or even entirely different perspectives, from any of the Co-Is. If you just have a preference you would like to express, let me know. bill 302 831 2780 --------------E59758A9B54341EB8543B63A Content-Type: text/plain; charset=us-ascii; name="Nodes.txt" Content-Disposition: inline; filename="Nodes.txt" Content-Transfer-Encoding: 7bit CPU and System selection for Beowulf Cluster at University of Delaware ---------------------------------------------------------------------- 2/6/2000 Draft 1 This document is intended to summarize the issues surrounding selection of a hardware platform for the Beowulf cluster at the Bartol Research Institute of the University of Delaware, and to discuss specific configuration, vendor and price options. Since my knowledge is evolving, this document should be considered a work in progress. You may wish to look at the provided Table (nodes.ps), and skip to the summary at the bottom. Dave 1. Introduction --------------- The project goal is to purhase a Beowulf class supercomputer for scientific computing. Such a machine is characterized by several nodes sharing the workload for completing a particular computing task. The total system memory is distributed amongst the nodes, as opposed to a shared memory architecture. Nodes communicate via a network (e.g. fast ethernet TCP/IP), as opposed to over a shared system or memory bus. The concept behind this architecture is to allow for commodity pricing of CPU cycles while still allowing for parallel computation. The Beowulf approach contrasts the usual notion of a supercomputer by the relative isolation of the computing nodes. In the usual approach, a large pool of shared memory is available to all processing nodes. This allows for efficient sharing of the workload betweeen nodes, but with big price penalties for the special design. The Beowulf approach is cheap, but for problems which require a lot of interprocessor communication may be inefficient in use of CPU resources. The relevant comparison is between computation time and communication time. It is useful to put down a few numbers. For example, a 1 Gflop CPU is capable of 10^9 floating point operations per second. Further (to astrophysical accuracy) each number is 10 bytes, or 100 bits of information, so 1 Gflop corresponds to 10 GBps or 100 Gbps. In the least CPU intensive case we have 1 flop per number, so the communication rate to feed the CPU must be 10 GBps. This is to be contrasted with a fast ethernet bandwidth of 100 Mbps, a ratio of a factor of 1000. Going to Gigabit ethernet or Myrinet would improve to 1 Gbps. This is also the bandwidth of the standard 32 bit/33 MHz PCI bus. Bandwidth between the CPU and main memory in a workstation is of order 1 GBps. The bandwidth between the level one cache and the CPU is perhaps 10 GBps, and presumably is matched by the design engineers to the CPU throughput. Level two cache is likely to be intermediate. Rate (GBps) Component bandwidth ------------------------------------------- 10 CPU Flops 10 level one cache 1 main memory bus (single channel) 0.1 (1 Gbps) Gigabit ethernet, myrinet, PCI 32 bit/33 MHz 0.01 (100 Mbps) Fast Ethernet 0.001 (10 Mbps) Ethernet Note: these rates make no consideration of latency issues, either at the hardware or operating system level. The nodes of a supercomputer communicate and access data at memory bandwidth speeds. Beowulf computers communicate at 1/10 or 1/100 that rate, depending on fast or gigabit ethernet. Memory access rates vary depending on whether the data is local or on another node. In a calculation with low computation load required per number, e.g. the dot product between very long vectors, no computer can feed the CPU fast enough. On the other end of the spectrum, any application with significant computation per input number might not have bandwidth problems on any platform. For intermediate cases, e.g. multiplication of NxN matrices where each number gets used N times, reasonable scheduling of memory accesses will not saturate the memory bus. A poor compiler, however, would be a disaster. To get matrix data through a fast ethernet pipe, however, could be problematic. Such intermediate cases may run well on a supercomputer with shared memory, but their success on a Beowulf system would depend on the ability of programmers to lessen the data passing required between nodes. Development of such techniques is, in fact, one of the goals of this project. 1.1 Single Node Performance Issues For a single node, the two paramount issues are the raw CPU power and the memory bandwidth. The CPU power depends on the integer and floating point units on the chip, the level 1 cache design... Choices that are good for one application will not be ideal for others. The best I can think to do is try and collect a number of benchmarks relevant to scientific computing. The SPECint and SPECfp are two. KS has suggested Linpack 1000, but it is difficult to find apples to apples comparisons. A very useful resource has been an ongoing study by Martyn Guest at Daresbury Lab in England for their computational chemistry group. http://wserv1.dl.ac.uk/CFS/benchmarks/compchem.html This study includes SPEC numbers, Matrix multiplication, results from several quantum chemistry applications, STREAM (see below)... Generally the conclusion is that SPEC is a reasonable guide to floating point power, but slightly favors DEC Alpha processors, as compared to relative performance on other benchmarks. For memory bandwidth there are two guides. First, one may consider the theoretical bandwidth of the platform. The second guide is the STREAM http://www.cs.virginia.edu/stream/ benchmark. There are several tests, but the one most quoted is the "Triad" test, which computes a + b*c for two very long vectors a,b and a constant c. The vectors do not fit in cache. In a dual processor system, the total memory bandwidth is relevant. On dual pentium systems the memory controller acts like a hub and the bandwidth is shared. On Alpha 21264 dual processor systems the Tsunami chipset acts like a switch, but informal comments from Microway indicate that the switch does supply totally independent memory channels If gigabit networking is chosen, then the internal bandwidth between the network card and the system should also be considered. i.e. putting a gigabit NIC on an older 32 bit 33 MHz PCI bus is a marginal proposition, but would be acceptable on a 64 bit/66 MHz bus. 1.2 Network Performance Issues Our nominal solution is fast ethernet. It is affordable and implementable. A fast ethernet connection would work on any platform we might consider. Gigabit ethernet or myrinet are appealing since they hold the promise of improving efficiency for problems that are communication limited, but it is not clear what the gain in performance would be. As pointed out above, gigabit would saturate a 32/33 PCI bus. On a dual processor system the pipe would be split. It is unknown if latency issues would be improved, as some of the latency is in the operating system. Roughly speaking either of these options would add roughly $1000 per connection. With gigabit the cost is weighted toward the switch, with myrinet it is weighted towards the network interface card. With fast ethernet, the cost of the NIC and switched ports are small. The most expensive item is likely to be the gigabit links that tie the switches together. It may be possible to get a really wide ethernet switch (100-200 ports), but I don't have cost estimates at this time. 1.3 Physical Constraints Physical size of the system is actually a significant constraint due to the available space in the Bartol computing room. In addition we need to consider power and cooling requirements. We estimate that, at the maximum, we could fit 5 full height 19" racks into the Bartol computing room. Even this is tight, a 3 or 4 rack system is greatly preferred. As a guide, a typical rack can accomodate some 40U of space (maybe a bit more), where U corresponds to 1.75 in. Thus 1U systems are 40 to a rack, 2U are 20 and we can get 13 3U chassis in a rack. Microway offers a system with 16 chassis mounted vertically in a 4x4 setup. Each chassis can hold two motherboards. Another vendor, Computer Parts Plus, offers a 2U chassis that can hold 3 motherboards (PC-ATX only at the moment). Sun offers 1U systems, with UltraSPARC IIi processors. Numerous vendors offer 1U PC systems, but the price is too high. One thing is clear, we do not have enough room to put shelves up with 100 minitowers and that cuts down on our options. Our UPS is rated for 30,000 watts. I'm not sure if the cooling unit was designed to match that thermal load or not, but let's assume so for the moment. As a rough estimate, I believe that x-86 and Sun systems would require less than 100 Watts per processor, and alphas less than 200. Given the amount of money we can spend, that translates into about 15,000 Watts for our cluster. It looks pretty good, but we have to keep an eye on things. It is not required that the cluster be on the UPS. It is however required that we can cool it. If we go to gigabit switching we may have to watch out. If I correctly read the specs on a "Corebuilder" gigabit switch from 3-Com it required 5000 Watts. 1.4 OS and Software Not much to say here. Pretty clearly we need good compilers, but I don't have much knowledge. I have less knowledge about parallel programming, message passing and all that. Here are a few questions: a) Will we do better with the open source community or with a propietary operating system? b) Same question for compilers. c) Will we need any software other than these and scientific libraries? 1.5 Maintenance Is it necessary? Well, who knows? The traditional answer on a significant piece of computer hardware is, "If we are using it, it should be maintained." However, maintenance costs for a Beowulf system could be quite large on a fractional basis. After all, the idea is to get commodity pricing on CPU power. At the same time, our physical constraints require that we are not using commodity cases. Maintenance would be on a peculiar basis. If we purchase Alpha or Sun systems then maintenance costs may again be higher than anticipated. We should make some sort of decision on maintenance strategy up front. For an x-86 based system it may be possible to do maintenance in house, i.e. Jerry plus a catalogue. 2. Platforms ------------ We have been pursuing three platforms based on Sun, Alpha and x-86 CPUs. Alpha 21264's (ev-6) are the high end of our considerations providing perhaps twice the CPU power, but at higher cost. Older 21164 (ev-5) CPU's would not be competitive with x-86 offerings at the same cost per node. In the x-86 category, the CPU of choice at the moment is the AMD Athlon. This category is the most dynamic. Incremental improvements to the platform arrive monthly. Sun is the hardest to judge. Their list prices are high, but actual selling prices are much lower. Every sale is a deal. A summary of the options for nodes is given in the attached ps file, or if you prefer on sheet two of the attached excel file. The table lists 5 options, 3 based on Alpha 21264, one on Sun UltraSPARC IIi, and one on the AMD Athlon chip. The table lists supplier, system details as I can surmise from the vendor or from manufacturer's literature, physical packaging information, cost from vendor's e-mail quotes, and an estimate of node performance. Specifically, for the node performance I use an average of the results for SpecFP95, the Triad test from the memory bandwidth test benchmark, and the final average of the extesive quantum chemistry study; all scaled to the result for the UP2000. The cost, performance and packaging information is then used to derive two metrics: the bang per buck (performance/cost) and the performance density (CPUs/rack * performance). Also listed is inverse bang per buck. The apparent winner for bang/buck is the AMD system. I say apparent because some of the items in the analysis are estimated, most significantly the per node cost for Sun. The winner in the performance density contest is a rack full of 64 Alphas (16 systems, 2 motherboards, 2 CPU's per motherboard) from microway. It is almost twice the density of the Athlon system. Coupled with the relatively higher cost of their system, we would only need to purchase one rack of equipment before running out of money. The other solutions would require 3 racks. Below I give a summary of each system. The big items are CPU, motherboard, rack assembly, and the cost to put it together for us. Along with these go items such as bus speed, cache memory, etc. For other items, I have tried to make the systems as similar as possible. These common components are discussed here: 256 MB ecc ram: generally this is assumed to be PC 100 SDRAM unless otherwise specified. Even Sun and Alpha are using commodity memory, although their memory architecture may make for a wider bus, and hence greater bandwidth. Cost to "uplift" to 512 MB is included where known. Current price of a 256 MB ecc DIMM is about $300, but was higher (450) when these quotes were obtained a few weeks ago. 15-20 GB 7200 RPM disk drive: Disk is probably not an essential aspect of a Beowulf system, so why not get a smaller disk? They are hard to find and not significantly cheaper, and we need swap space. The sweet spot on IDE disks is around $150. We could get SCSI at twice the price, with modest performance gains if any in a Beowulf environment. Question: What are we going to do with 2 TB of on line storage? 100 Mbs fast ethernet: Discussed above. Figure $50 for a fast ethernet NIC. Other items, such as floppy, video card... may also be included but do not add much to price. maybe 50 bucks all together. Total budget for nodes is in the ball park of 250K. We also need to purchase control node (~ 5K) fast ethernet switching network (~ 25K) racks (~ 8K) cables (?) monitor, keyboard multiplex switch for monitoring nodes ? compilers ? maintenance ? etc. 2.1 Sun ------- I have done less research on the Sun system than the other two options. The processor speed, cache and memory are from their quote or product literature. Some details are missing. The performance numbers are reasonable estimates based on extrapolating similar systems of slightly higher or lower CPU speed. My sense is that I may have been a bit generous in the treatment of Triad and QC, and a bit harsh in Spec. The difficulty being accounting for the difference between SPARC II and IIi in different tests. Sun's quote to us included a gigabit card for each node. In view of the slower PCI bus, it is questionable if the card would perform well in this platform. Bonding together the two fast ethernet connections for each board, would appear to be a better option. Sun's quote (minus the gigabit card) was at $4800 per node, with educational discount. They then added, "don't worry about the price." and broadly hinted at a number around $2000 per node. I don't know exactly what to make of that so have used $2400 per node. Sun is scheduled to come out with a UltraSPARC III sometime this year. The sense is that it will run at maybe 750 MHz and be equivalent to an Alpha 21264. It seems unlkely to me that it will be either cheap, or available in 1U mounting. Sun has oodles of systems in Supercomputer top 500. They are mostly Enterprise 10000's. For example, the Rutgers installation they mention to us is listed with 128 nodes (two 64 node E10000's) at around spot number 100. The list price for that system was 7 million, but, says their web page, Sun made significant contributions including entirely 1 of the 64 node E10000 boxes. Sun has no systems that I could find listed on the Beowulf.org site. 2.2 Alpha -------- By virtue of the floating point power of the Alpha 21264, this CPU must be considered seriously. I have not contacted Compaq, but rather dealt with resellers of the Alpha-Processor Inc UP1000 and UP2000 motherboards, on the theory they will be cheaper. Indeed, but at what cost? The UP2000 motherboard uses the Digital chipset 21272 (tsunami) and appears to deliver performance comparable to top of the line Compaq workstations. The UP1000 uses a more modest AMD chipset. The smallest chassis supplied by API is a 3U mount that would allow at most 13 CPU's per rack. For some 80 processors, this does not meet our needs. Microway, however, overs a "quadputer" chassis that includes 2 UP2000 motherboards. 16 of these may be placed in a rack - go to their website and look at the picture. Upon inquiry, Microway will sell quadputers with UP1000's replacing the UP2000's. This gives 32 CPU's per rack, which is acceptable. This is the UP1000 quote described in the chart. I have had a hard time finding benchmark info for the UP1000, and so have used estimates in the table below. Due to the lower bandwidth memory system, the Triad result must be below that given for the UP2000 and below the physical memory bandwidth (800 MBs). At the same time, it should exceed that for the Athlon system (480), since there is a stronger CPU and the same chipset. So, I use an estimate of 600. Similarly, I have made discounted scores for Spec and QC that attempt to account for the chipset and a slightly slower processor, 600 Mhz vs 667 MHz for the UP2000 systems. The problem with the UP2000 board is its high cost. A single processor system would run us about $7000 per node. By adding a second processor the cost of the board and rackmount are aleviated, and the cost per node drops to about $5000. The quote from Microway is for the quadputer system referred to on their webpage. This would result in 64 Alpha 21264's in a single rack, if we could afford it - which we can't. The quote from DCG is for a dual processor UP2000 in a 3U mount, which results in 26 CPU's per rack, which is ok for density. Their price is lower as well. Otherwise the two systems are very similar. Each quote includes 512 Mb of memory on the motherboard and two ethernet cards, so the per CPU resources are comparable to other systems. Instead of two ethernet cards one might use a single gigabit or myrinet card in the UP2000 systems. The PCI bus is twice the width and speed, (but only gets 3 times the total bandwidth ??) as for the other platforms. So, if we plan to go gigabit, it is an argument in favor of these systems. Of course, the pipe would be shared, so throughput to each CPU might be comparable to that in the other systems, but at half the cost since one connection would service two CPUs. One troubling item on the UP2000 board. From conversations with Microway, the chipset does not perform quite as well as it should in a dual processor system. The theoretical bandwidth is 2666 MBs. This is limited by the system bus to 1600 MBs. Observed Triad results for a single processor Tsunami system vary from 950-1150 MBs. In principle this should double in a dual processor system since the chipset is designed to work as a switch. Unfortunately observed memory bandwidth appears to be around 1300. As a result, I have discounted the Triad result for the dual processor UP2000. It may be worth noting that The SpecFP score for the UP2000 of 49 is significantly lower than 67 you may see for a Compaq workstation. Part of the discrepency is that I have quoted just Base Spec numbers, not the "peak" results. The other difference is that the UP2000 SpecFP does not, apparently, use the most recent Digital compilers. I have not included compiler cost in my estimates... A few addendums to the UP2000 quotes. Upping the Cache memory to 4 MB would cost about $500 from DCG. (sorry Bill, I thought it was more). It is not possible to put a 600 MHz in the UP2000 as it has a different physical construction for the CPU card. We can go up (750?), but there are significant price increases with CPU speed. e.g. the 600 MHz processor is $1800 from DCG, whereas the 667 is priced at $2500 (DCG) or $3200 (microway). I'll try and get more info on this. There is a chance that Microway will convince Alpha Processor Inc to make a single processor motherboard using the Tsunami chipset, giving UP2000 performance at a more modest price. I doubt if this could be available on our timescale. 2.3 AMD ------- It seems there are now many vendors that will supply 1U solutions for x-86 processors. Most of these solutions are based on notebook motherboards and have cost greater than $2500 per node, and offer hardware about a year old. I've not included any such systems in my summary. Sun would be a better choice. A few vendors are willing to put x-86 CPUs in a 2U chassis, with multiple CPUs per chassis. Most of these involve dual processor Intel motherboards which I believe is an inferior solution (see below). A couple offer solutions where multiple motherboards can be mounted per chassis, with the only constraint being that they be industry standard ATX motherboards. For example, we could put such systems in the Microway quadputer, 2 mbs per chassis for 32 single processor nodes per rack. A more interesting solution of this type places 3 motherboards in a 2U chassis from Computer Parts Plus (CP+). These "racksavers" fit 21 chassis, or 63 nodes in a single (26x32x72) rack. I asked CP+ to give us a quote for such a system based on the AMD Athlon CPU. That quote is listed in the AMD column of the table. The CP+ pricing model is to get reasonable cost commodity parts, add the cost of their 3 in 1 chassis ($1500), and add a bump of 20%. We may be able to negotiate a bit on this but probably not too much. So, why AMD Athlon instead of Intel Pentium? Qualitatively, the Athlon is considered to have a better floating point unit, whereas the latest PIII, the Coppermine, is considered to have the better cache architecture. There is debate about their memory implementations. The result is that top of the line Athlon and Coppermine systems get similar performance, but the Athlon system will be cheaper due primarily to the high cost of Rambus (RDRAM) memory (~$1500 for 256MB ECC RDRAM 800 MHz!) on the Intel system. One could specify a cheaper SDRAM solution for the Pentium but at some performance penalty, and the Athlon would still likely come in $100-$200 cheaper for the same MHz CPU. Note that it is not that RDRAM is superior to SDRAM, rather that Intel does not have a chipset that supports SDRAM well for the Coppermine. Note that dual pentium solutions share the bandwidth of the system bus. The theoretical bandwidth is therefore 516 MBs, with real performance lagging (est 300 in Triad ?). For this reason, I think dual processor Pentium solutions should be avoided Counteracting the better hardware is the realization that Intel's marketing muscle will get better support within the industry. For us this means it may be harder to find Athlon optimized compilers. So, for example, Intel posts Spec numbers using a new Intel Fortran compiler not yet generally available. I have read many speculations that this compiler would give similar benfits to AMD CPU's, but the fact remains that AMD does not control its own fate. It would probably be useful to contact Portland or Absoft and inquire about Athlon optimizations. The main question with Athlon systems centers around the limited options for motherboards. I believe just five companies have motherboards to market. This is likely to change in the near future as a new chipset supporting PC133 SDRAM is available from VIA, a Taiwan semiconductor company. Sample motherboards are showing up in reviews and show ~15% improvements (e.g. Triad 563) in some benchmarks. (To be fair, Intel is expected to improve their chipset options in the near future as well.) Later in the spring AMD is scheduled to release a new AMD with a better level 2 cache solution (smaller but full speed, similar to the coppermine), which should increase performance as well (20%?). Over the same time frame, as Intel and AMD fight it out in the MHz war, chipspeeds at the same price point will likely rise 100 MHz, which for us is another 15% gain. Putting all these together, it is plausible that an x-86 solution purchased June 1 would have more than 50% improvement over current CP+ proposal. The bang for the buck of the Athlon system is superior by 30% to all other systems, and apart from the microway UP2000 quadputer solution has the highest performance density as well. Against this there is the recognition that a single Alpha node has more punch than an x-86 node, which will make them less scalable in a communication limited application. In addition, there is the weakness of the PCI bus for handling an upgrade to gigabit networking. There is also the concern that CP+ may not be up to the task of filling this order, or that there may be engineering problems. CP+ has supplied .pdf drawings of their 3 in 1 chassis, and also three customer references that we may contact. They are a relatively small but growing company (1999: $10M, projected $50M for 2000 ?). They have given reasonable answers to questions concerning installation, service and upgradability. I asked CP+ if they did any business with Alpha systems. They expect to design a system for another customer, but did not want to discuss details for another few weeks. They also say they are working on a solution where they double the number of boards to 6 in a chassis by mounting 3 upside down. If one used dual pentium boards and stuffed the rack you get...252 CPUs in a rack. hmm. 3. Summary ---------- Each of the options presented has advantages. The AMD solution gives the best bang for the buck and considerable compute power per cubic foot. The Alpha systems give the best CPU power per node. The UP1000 system is a good compromise between performance and cost. The UP2000 system from Microway gives us a one rack solution, whereas the DCG system would purchase more number crunching, albeit in three racks. Either of the UP2000 systems appears better suited to a gigabit upgrade than the Sun, AMD, or UP1000 solution. The Sun solution offers the poorest performance numbers, but their hardware is likely to be very stable and probably offers the best system management solution. In terms of vendor support for high performance computing, my impression is that Sun and Microway would be best. Sun has a lot of experience with HPC, which is a plus, but it is unlikely that we will find a significant user base of Sun customers with problems similar to ours. Their HPC customers will be working on shared memory machines, not Beowulf clusters. There are no Sun Beowulf clusters to my knowledge. Microway has been selling this sort of hardware for a while. They now support the Avalon system at Los Alamos. DCG is similar to Microway as a seller of Alpha systems, but I sense that they are not as technically solid. For example, development of the "quadputer" chassis takes some thought about what is going on. If we know what we want, DCG can give us a great price, but don't expect them to correct our mistakes - whereas the Microway people were the initial source for getting more detailed information about the UP1000 and UP2000 systems. The CP+/AMD solution is likely to benefit from a large user base of x-86 systems, both Linux workstations and the bulk of Beowulf systems. Here the short comings are in the experience base at CP+ and the industry support (or lack thereof) for optimizing use of the Athlon chip. I sense that CP+ will be a good resource for supporting a high CPU density system, but may be short on HPC experience. --------------E59758A9B54341EB8543B63A Content-Type: application/postscript; name="nodes.ps" Content-Disposition: inline; filename="nodes.ps" Content-Transfer-Encoding: quoted-printable X-MIME-Autoconverted: from 8bit to quoted-printable by bartol.udel.edu id XAA17029 %! %%IncludeFeature: header (off) %%IncludeFeature: collate (on) %%IncludeFeature: emulation (postscript) %!PS-Adobe-3.0 %%Title: nodebench.xls %%Creator: PSCRIPT.DRV Version 4.0 %%CreationDate: 02/06/00 23:23:03 %%BoundingBox: 13 13 600 780=20 %%Pages: (atend) %%PageOrder: Special %%Requirements:=20 %%DocumentNeededFonts: (atend) %%DocumentSuppliedFonts: (atend) %%DocumentData: Clean7Bit %%LanguageLevel: 2 %%EndComments %%BeginProlog=20 %%BeginProcSet: Pscript_Win_ErrorHandler 1.0 1 /currentpacking where{pop/oldpack currentpacking def/setpacking where{pop false setpacking}if}if/$brkpage 64 dict def $brkpage begin/prnt{dup type /stringtype ne{=3Dstring cvs}if dup length 6 mul/tx exch def/ty 10 def currentpoint/toy exch def/tox exch def 1 setgray newpath tox toy 2 sub mo= veto 0 ty rlineto tx 0 rlineto 0 ty neg rlineto closepath fill tox toy moveto = 0 setgray show}bind def/nl{currentpoint exch pop lmargin exch moveto 0 -10 rmoveto}def/=3D=3D{/cp 0 def typeprint nl}def/typeprint{dup type exec}rea= donly def /lmargin 72 def/rmargin 72 def/tprint{dup length cp add rmargin gt{nl/cp = 0 def }if dup length cp add/cp exch def prnt}readonly def/cvsprint{=3Dstring cv= s tprint( )tprint}readonly def/integertype{cvsprint}readonly def/realtype{ cvsprint}readonly def/booleantype{cvsprint}readonly def/operatortype{(--) tprint =3Dstring cvs tprint(-- )tprint}readonly def/marktype{pop(-mark- )= tprint} readonly def/dicttype{pop(-dictionary- )tprint}readonly def/nulltype{pop (-null- )tprint}readonly def/filetype{pop(-filestream- )tprint}readonly d= ef /savetype{pop(-savelevel- )tprint}readonly def/fonttype{pop(-fontid- )tpr= int} readonly def/nametype{dup xcheck not{(/)tprint}if cvsprint}readonly def /stringtype{dup rcheck{(\()tprint tprint(\))tprint}{pop(-string- )tprint} ifelse}readonly def/arraytype{dup rcheck{dup xcheck{({)tprint{typeprint}f= orall (})tprint}{([)tprint{typeprint}forall(])tprint}ifelse}{pop(-array- )tprin= t} ifelse}readonly def/packedarraytype{dup rcheck{dup xcheck{({)tprint{typep= rint} forall(})tprint}{([)tprint{typeprint}forall(])tprint}ifelse}{pop (-packedarray- )tprint}ifelse}readonly def/courier/Courier findfont 10 scalefont def end errordict/handleerror{systemdict begin $error begin $br= kpage begin newerror{/newerror false store vmstatus pop pop 0 ne{grestoreall}if showpage initgraphics courier setfont lmargin 720 moveto(ERROR: )prnt errorname prnt nl(OFFENDING COMMAND: )prnt/command load prnt $error/ostac= k known{nl nl(STACK:)prnt nl nl $error/ostack get aload length{=3D=3D}repea= t}if systemdict/showpage get exec(%%[ Error: )print errorname =3Dprint (; OffendingCommand: )print/command load =3Dprint( ]%%)=3D flush}if end e= nd end} dup 0 systemdict put dup 4 $brkpage put bind readonly put/currentpacking = where {pop/setpacking where{pop oldpack setpacking}if}if %%EndProcSet userdict /Pscript_Win_Driver_Incr 200 dict dup begin put %%BeginResource: file Pscript_FatalError 2.0 0 /FatalErrorIf{{initgraphics findfont exch scalefont setfont counttomark 3= div cvi{moveto show}repeat showpage quit}{cleartomark}ifelse}bind def %%EndResource /VM? {vmstatus exch sub exch pop gt { [ (This job requires more memory than is available in this printer.) 100 50= 0 (Try one or more of the following, and then print again:) 100 485 (In the PostScript dialog box, click Optimize For Portability.) 115 470 (In the Device Options dialog box, make sure the Available Printer Memory= is accurate.) 115 455 (Reduce the number of fonts in the document.) 115 440 (Print the document in parts.) 115 425 12 /Times-Roman showpage (%%[ PrinterError: Low Printer VM ]%%) =3D true FatalErrorIf}if} bind def 30000 VM? %%BeginResource: file Pscript_Win_Utils 2.0 0 /|/def load def/,/load load |/~/exch , |/?/ifelse , |/!/pop , |/`/begin ,= |/^ /index , |/@/dup , |/+/translate , |/$/roll , |/U/userdict , |/M/moveto ,= |/- /rlineto , |/&/currentdict , |/:/gsave , |/;/grestore , |/F/false , |/T/t= rue , |/N/newpath , |/E/end , |/Ac/arc , |/An/arcn , |/A/ashow , |/D/awidthshow= , | /C/closepath , |/V/div , |/O/eofill , |/L/fill , |/I/lineto , |/-C/rcurve= to , |/-M/rmoveto , |/+S/scale , |/Ji/setfont , |/Lc/setlinecap , |/Lj/setline= join , |/Lw/setlinewidth , |/S/show , |/LH/showpage , |/K/stroke , |/W/widthsh= ow , |/R/rotate , |/b{bind |}bind |/bd{bind |}bind |/xd{~ |}bd/ld{, |}bd/lw/Lw= ld /lc/Lc ld/lj/Lj ld/sg/setgray ld/L2? 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: 188 988 654 48 rc 0 0 0 sco F0_42 Ji=20 297 988 M=20 -0.085 0 (Disk)A=20 ; : 556 988 436 48 rc 0 0 0 sco F0_42 Ji=20 665 988 M=20 -0.669 0 (GB)A=20 ; : 1034 988 436 48 rc 0 0 0 sco F0_42 Ji=20 1143 988 M=20 (17)S=20 ; : 1284 988 436 48 rc 0 0 0 sco F0_42 Ji=20 1393 988 M=20 (17)S=20 ; : 1534 988 436 48 rc 0 0 0 sco F0_42 Ji=20 1643 988 M=20 (20)S=20 ; : 1805 988 327 48 rc 0 0 0 sco F0_42 Ji=20 1914 988 M=20 (9)S=20 ; : 2002 988 407 48 rc 0 0 0 sco F0_42 Ji=20 2111 988 M=20 0.125 0 (13.6)A=20 ; : 556 1040 545 48 rc 0 0 0 sco F0_42 Ji=20 665 1040 M=20 -0.568 0 (RPM)A=20 ; : 992 1040 654 48 rc 0 0 0 sco F0_42 Ji=20 1101 1040 M=20 (7200)S=20 ; : 1242 1040 654 48 rc 0 0 0 sco F0_42 Ji=20 1351 1040 M=20 (7200)S=20 ; : 1492 1040 654 48 rc 0 0 0 sco F0_42 Ji=20 1601 1040 M=20 (7200)S=20 ; : 1742 1040 654 48 rc 0 0 0 sco F0_42 Ji=20 1851 1040 M=20 (7200)S=20 ; : 1992 1040 417 48 rc 0 0 0 sco F0_42 Ji=20 2101 1040 M=20 (7200)S=20 ; : 556 1092 1199 48 rc 0 0 0 sco F0_42 Ji=20 665 1092 M=20 -0.025 0 (Interface)A=20 ; : 1006 1092 545 48 rc 0 0 0 sco F0_42 Ji=20 1115 1092 M=20 0.009 0 (IDE)A=20 ; : 1256 1092 545 48 rc 0 0 0 sco F0_42 Ji=20 1365 1092 M=20 0.009 0 (IDE)A=20 ; : 1506 1092 545 48 rc 0 0 0 sco F0_42 Ji=20 1615 1092 M=20 0.009 0 (IDE)A=20 ; : 1738 1092 654 48 rc 0 0 0 sco F0_42 Ji=20 1847 1092 M=20 -0.176 0 (SCSI)A=20 ; : 2006 1092 403 48 rc 0 0 0 sco F0_42 Ji=20 2115 1092 M=20 0.009 0 (IDE)A=20 ; : 556 1144 981 47 rc 0 0 0 sco F0_42 Ji=20 665 1143 M=20 -0.363 0 (Bus MBs)A=20 ; : 842 1144 654 47 rc 0 0 0 sco F0_42 Ji=20 951 1143 M=20 -0.037 0 (33 ?)A=20 ; : 1284 1144 436 47 rc 0 0 0 sco F0_42 Ji=20 1393 1143 M=20 (66)S=20 ; : 1534 1144 436 47 rc 0 0 0 sco F0_42 Ji=20 1643 1143 M=20 (66)S=20 ; : 1784 1144 436 47 rc 0 0 0 sco F0_42 Ji=20 1893 1143 M=20 (40)S=20 ; : 2034 1144 371 47 rc 0 0 0 sco F0_42 Ji=20 2143 1143 M=20 (66)S=20 ; : 188 1199 1090 48 rc 0 0 0 sco F0_42 Ji=20 297 1199 M=20 0.338 0 (Ethernet)A=20 ; : 556 1199 545 48 rc 0 0 0 sco F0_42 Ji=20 665 1199 M=20 -0.559 0 (Mbs)A=20 ; : 1013 1199 545 48 rc 0 0 0 sco F0_42 Ji=20 1122 1199 M=20 (100)S=20 ; : 1263 1199 545 48 rc 0 0 0 sco F0_42 Ji=20 1372 1199 M=20 (100)S=20 ; : 1513 1199 545 48 rc 0 0 0 sco F0_42 Ji=20 1622 1199 M=20 (100)S=20 ; : 1763 1199 545 48 rc 0 0 0 sco F0_42 Ji=20 1872 1199 M=20 (100)S=20 ; : 2013 1199 396 48 rc 0 0 0 sco F0_42 Ji=20 2122 1199 M=20 (100)S=20 ; : 556 1251 763 47 rc 0 0 0 sco F0_42 Ji=20 665 1250 M=20 0.097 0 (# std)A=20 ; : 1055 1251 327 47 rc 0 0 0 sco F0_42 Ji=20 1164 1250 M=20 (1)S=20 ; : 1305 1251 327 47 rc 0 0 0 sco F0_42 Ji=20 1414 1250 M=20 (1)S=20 ; : 1555 1251 327 47 rc 0 0 0 sco F0_42 Ji=20 1664 1250 M=20 (1)S=20 ; : 1805 1251 327 47 rc 0 0 0 sco F0_42 Ji=20 1914 1250 M=20 (2)S=20 ; : 2055 1251 327 47 rc 0 0 0 sco F0_42 Ji=20 2164 1250 M=20 (1)S=20 ; : 188 1306 545 48 rc 0 0 0 sco F0_42 Ji=20 297 1306 M=20 -0.117 0 (PCI)A=20 ; : 556 1306 1199 48 rc 0 0 0 sco F0_42 Ji=20 665 1306 M=20 -0.185 0 (width\\MHz)A=20 ; : 981 1306 763 48 rc 0 0 0 sco F0_42 Ji=20 1090 1306 M=20 -0.135 0 (32\\33)A=20 ; : 1231 1306 763 48 rc 0 0 0 sco F0_42 Ji=20 1340 1306 M=20 -0.135 0 (64\\66)A=20 ; : 1481 1306 763 48 rc 0 0 0 sco F0_42 Ji=20 1590 1306 M=20 -0.135 0 (64\\66)A=20 ; : 1731 1306 678 48 rc 0 0 0 sco F0_42 Ji=20 1840 1306 M=20 -0.135 0 (32\\33)A=20 ; : 1981 1306 428 48 rc 0 0 0 sco F0_42 Ji=20 2090 1306 M=20 -0.135 0 (32\\33)A=20 ; : 556 1358 545 47 rc 0 0 0 sco F0_42 Ji=20 665 1357 M=20 -0.563 0 (MBs)A=20 ; : 1013 1358 545 47 rc 0 0 0 sco F0_42 Ji=20 1122 1357 M=20 (133)S=20 ; : 1263 1358 545 47 rc 0 0 0 sco F0_42 Ji=20 1372 1357 M=20 (400)S=20 ; : 1513 1358 545 47 rc 0 0 0 sco F0_42 Ji=20 1622 1357 M=20 (400)S=20 ; : 1763 1358 545 47 rc 0 0 0 sco F0_42 Ji=20 1872 1357 M=20 (133)S=20 ; : 2013 1358 392 47 rc 0 0 0 sco F0_42 Ji=20 2122 1357 M=20 (133)S=20 ; : 188 1413 872 48 rc 0 0 0 sco F0_42 Ji=20 297 1413 M=20 -0.505 0 (Floppy)A=20 ; : 1057 1413 327 48 rc 0 0 0 sco F0_42 Ji=20 1166 1413 M=20 -2.000 0 (y)A=20 ; : 1307 1413 327 48 rc 0 0 0 sco F0_42 Ji=20 1416 1413 M=20 -2.000 0 (y)A=20 ; : 1557 1413 327 48 rc 0 0 0 sco F0_42 Ji=20 1666 1413 M=20 -2.000 0 (y)A=20 ; : 1804 1413 327 48 rc 0 0 0 sco F0_42 Ji=20 1913 1413 M=20 1.000 0 (n)A=20 ; : 2057 1413 327 48 rc 0 0 0 sco F0_42 Ji=20 2166 1413 M=20 -2.000 0 (y)A=20 ; : 188 1465 1199 48 rc 0 0 0 sco F0_42 Ji=20 297 1465 M=20 -0.296 0 (Kbd/mouse)A=20 ; : 1027 1465 545 48 rc 0 0 0 sco F0_42 Ji=20 1136 1465 M=20 -1.559 0 (y\\y)A=20 ; : 1277 1465 545 48 rc 0 0 0 sco F0_42 Ji=20 1386 1465 M=20 -1.559 0 (y\\y)A=20 ; : 1527 1465 545 48 rc 0 0 0 sco F0_42 Ji=20 1636 1465 M=20 -1.559 0 (y\\y)A=20 ; : 1771 1465 545 48 rc 0 0 0 sco F0_42 Ji=20 1880 1465 M=20 0.441 0 (n\\n)A=20 ; : 2027 1465 382 48 rc 0 0 0 sco F0_42 Ji=20 2136 1465 M=20 -1.559 0 (y\\y)A=20 ; : 188 1517 1962 48 rc 0 0 0 sco F0_42 Ji=20 297 1517 M=20 0.275 0 (Serial/parrallel)A=20 ; : 1023 1517 545 48 rc 0 0 0 sco F0_42 Ji=20 1132 1517 M=20 -0.225 0 (2\\1)A=20 ; : 1273 1517 545 48 rc 0 0 0 sco F0_42 Ji=20 1382 1517 M=20 -0.225 0 (2\\1)A=20 ; : 1523 1517 545 48 rc 0 0 0 sco F0_42 Ji=20 1632 1517 M=20 -0.225 0 (2\\1)A=20 ; : 1772 1517 545 48 rc 0 0 0 sco F0_42 Ji=20 1881 1517 M=20 0.108 0 (2\\n)A=20 ; : 2023 1517 386 48 rc 0 0 0 sco F0_42 Ji=20 2132 1517 M=20 -0.225 0 (2\\1)A=20 ; : 188 1569 545 48 rc 0 0 0 sco F0_42 Ji=20 297 1569 M=20 -0.897 0 (USB)A=20 ; : 1055 1569 327 48 rc 0 0 0 sco F0_42 Ji=20 1164 1569 M=20 (2)S=20 ; : 1305 1569 327 48 rc 0 0 0 sco F0_42 Ji=20 1414 1569 M=20 (2)S=20 ; : 1555 1569 327 48 rc 0 0 0 sco F0_42 Ji=20 1664 1569 M=20 (2)S=20 ; : 1804 1569 327 48 rc 0 0 0 sco F0_42 Ji=20 1913 1569 M=20 1.000 0 (n)A=20 ; : 2055 1569 327 48 rc 0 0 0 sco F0_42 Ji=20 2164 1569 M=20 (2)S=20 ; : 188 1621 763 47 rc 0 0 0 sco F0_42 Ji=20 297 1620 M=20 -0.330 0 (Video)A=20 ; : 912 1621 981 47 rc 0 0 0 sco F0_42 Ji=20 1021 1620 M=20 -0.241 0 (4MB-PCI)A=20 ; : 1162 1621 981 47 rc 0 0 0 sco F0_42 Ji=20 1271 1620 M=20 -0.241 0 (4MB-PCI)A=20 ; : 1412 1621 981 47 rc 0 0 0 sco F0_42 Ji=20 1521 1620 M=20 -0.241 0 (4MB-PCI)A=20 ; : 1804 1621 327 47 rc 0 0 0 sco F0_42 Ji=20 1913 1620 M=20 1.000 0 (n)A=20 ; : 1894 1621 511 47 rc 0 0 0 sco F0_42 Ji=20 2003 1620 M=20 -0.334 0 (4MB-AGP)A=20 ; : 0 1746 995 48 rc 0 0 0 sco F0_42 Ji=20 14 1746 M=20 -0.167 0 (Physical)A=20 ; : 188 1746 981 48 rc 0 0 0 sco F0_42 Ji=20 297 1746 M=20 -0.237 0 (Density)A=20 ; : 556 1746 1417 48 rc 0 0 0 sco F0_42 Ji=20 665 1746 M=20 -0.156 0 (Sys/Chassis)A=20 ; : 1055 1746 327 48 rc 0 0 0 sco F0_42 Ji=20 1164 1746 M=20 (2)S=20 ; : 1305 1746 327 48 rc 0 0 0 sco F0_42 Ji=20 1414 1746 M=20 (2)S=20 ; : 1555 1746 327 48 rc 0 0 0 sco F0_42 Ji=20 1664 1746 M=20 (1)S=20 ; : 1805 1746 327 48 rc 0 0 0 sco F0_42 Ji=20 1914 1746 M=20 (1)S=20 ; : 2055 1746 327 48 rc 0 0 0 sco F0_42 Ji=20 2164 1746 M=20 (3)S=20 ; : 556 1798 1526 48 rc 0 0 0 sco F0_42 Ji=20 665 1798 M=20 -0.028 0 (Chassis/Rack)A=20 ; : 1034 1798 436 48 rc 0 0 0 sco F0_42 Ji=20 1143 1798 M=20 (16)S=20 ; : 1284 1798 436 48 rc 0 0 0 sco F0_42 Ji=20 1393 1798 M=20 (16)S=20 ; : 1534 1798 436 48 rc 0 0 0 sco F0_42 Ji=20 1643 1798 M=20 (13)S=20 ; : 1784 1798 436 48 rc 0 0 0 sco F0_42 Ji=20 1893 1798 M=20 (40)S=20 ; : 2034 1798 375 48 rc 0 0 0 sco F0_42 Ji=20 2143 1798 M=20 (21)S=20 ; : 556 1850 1090 48 rc 0 0 0 sco F0_42 Ji=20 665 1850 M=20 -0.460 0 (Sys/Rack)A=20 ; : 1034 1850 436 48 rc 0 0 0 sco F0_42 Ji=20 1143 1850 M=20 (32)S=20 ; : 1284 1850 436 48 rc 0 0 0 sco F0_42 Ji=20 1393 1850 M=20 (32)S=20 ; : 1534 1850 436 48 rc 0 0 0 sco F0_42 Ji=20 1643 1850 M=20 (13)S=20 ; : 1784 1850 436 48 rc 0 0 0 sco F0_42 Ji=20 1893 1850 M=20 (40)S=20 ; : 2034 1850 375 48 rc 0 0 0 sco F0_42 Ji=20 2143 1850 M=20 (63)S=20 ; : 556 1902 1090 47 rc 0 0 0 sco F0_42 Ji=20 665 1901 M=20 -0.335 0 (CPU/Rack)A=20 ; : 1034 1902 436 47 rc 0 0 0 sco F0_42 Ji=20 1143 1901 M=20 (32)S=20 ; : 1284 1902 436 47 rc 0 0 0 sco F0_42 Ji=20 1393 1901 M=20 (64)S=20 ; : 1534 1902 436 47 rc 0 0 0 sco F0_42 Ji=20 1643 1901 M=20 (26)S=20 ; : 1784 1902 436 47 rc 0 0 0 sco F0_42 Ji=20 1893 1901 M=20 (40)S=20 ; : 2034 1902 371 47 rc 0 0 0 sco F0_42 Ji=20 2143 1901 M=20 (63)S=20 ; : 188 1957 1744 47 rc 0 0 0 sco F0_42 Ji=20 297 1956 M=20 0.059 0 (Chassis Height)A=20 ; : 556 1957 1308 47 rc 0 0 0 sco F0_42 Ji=20 665 1956 M=20 -0.062 0 (\(1U=3D1.75"\))A=20 ; : 842 1957 1526 47 rc 0 0 0 sco F0_42 Ji=20 951 1956 M=20 0.102 0 (Vertical 4x4)A=20 ; : 1092 1957 1313 47 rc 0 0 0 sco F0_42 Ji=20 1201 1956 M=20 0.102 0 (Vertical 4x4)A=20 ; : 1342 1957 436 47 rc 0 0 0 sco F0_42 Ji=20 1451 1956 M=20 -0.662 0 (3U)A=20 ; : 1592 1957 436 47 rc 0 0 0 sco F0_42 Ji=20 1701 1956 M=20 -0.662 0 (1U)A=20 ; : 1842 1957 436 47 rc 0 0 0 sco F0_42 Ji=20 1951 1956 M=20 -0.662 0 (2U)A=20 ; : 188 2012 1199 48 rc 0 0 0 sco F0_42 Ji=20 297 2012 M=20 -0.408 0 (Power/CPU)A=20 ; : 556 2012 763 48 rc 0 0 0 sco F0_42 Ji=20 665 2012 M=20 0.003 0 (Watts)A=20 ; : 1034 2012 436 48 rc 0 0 0 sco F0_42 Ji=20 1143 2012 M=20 (73)S=20 ; : 1284 2012 436 48 rc 0 0 0 sco F0_42 Ji=20 1393 2012 M=20 (80)S=20 ; : 1534 2012 436 48 rc 0 0 0 sco F0_42 Ji=20 1643 2012 M=20 (80)S=20 ; : 1592 2012 654 48 rc 0 0 0 sco F0_42 Ji=20 1701 2012 M=20 -0.037 0 (21 ?)A=20 ; : 2034 2012 375 48 rc 0 0 0 sco F0_42 Ji=20 2143 2012 M=20 (36)S=20 ; : 188 2064 1526 47 rc 0 0 0 sco F0_42 Ji=20 297 2063 M=20 -0.319 0 (Power supply)A=20 ; : 1013 2064 545 47 rc 0 0 0 sco F0_42 Ji=20 1122 2063 M=20 (400)S=20 ; : 1263 2064 545 47 rc 0 0 0 sco F0_42 Ji=20 1372 2063 M=20 (600)S=20 ; : 1513 2064 545 47 rc 0 0 0 sco F0_42 Ji=20 1622 2063 M=20 (600)S=20 ; : 2013 2064 392 47 rc 0 0 0 sco F0_42 Ji=20 2122 2063 M=20 (150)S=20 ; : 0 2198 668 48 rc 0 0 0 sco F0_42 Ji=20 14 2198 M=20 -0.062 0 (Price)A=20 ; : 188 2198 1417 48 rc 0 0 0 sco F0_42 Ji=20 297 2198 M=20 -0.307 0 (Cost/system)A=20 ; : 992 2198 654 48 rc 0 0 0 sco F0_42 Ji=20 1101 2198 M=20 (3675)S=20 ; : 1221 2198 763 48 rc 0 0 0 sco F0_42 Ji=20 1330 2198 M=20 (10900)S=20 ; : 1492 2198 654 48 rc 0 0 0 sco F0_42 Ji=20 1601 2198 M=20 (9000)S=20 ; : 1592 2198 817 48 rc 0 0 0 sco F0_42 Ji=20 1701 2198 M=20 -0.015 0 (2400 \(?\))A=20 ; : 1992 2198 417 48 rc 0 0 0 sco F0_42 Ji=20 2101 2198 M=20 (1875)S=20 ; : 188 2250 1090 47 rc 0 0 0 sco F0_42 Ji=20 297 2249 M=20 -0.299 0 (Cost/CPU)A=20 ; : 992 2250 654 47 rc 0 0 0 sco F0_42 Ji=20 1101 2249 M=20 (3675)S=20 ; : 1242 2250 654 47 rc 0 0 0 sco F0_42 Ji=20 1351 2249 M=20 (5450)S=20 ; : 1492 2250 654 47 rc 0 0 0 sco F0_42 Ji=20 1601 2249 M=20 (4500)S=20 ; : 1742 2250 654 47 rc 0 0 0 sco F0_42 Ji=20 1851 2249 M=20 (2400)S=20 ; : 1992 2250 413 47 rc 0 0 0 sco F0_42 Ji=20 2101 2249 M=20 (1875)S=20 ; : 0 2409 1322 48 rc 0 0 0 sco F0_42 Ji=20 14 2409 M=20 -0.053 0 (Performance)A=20 ; : 188 2409 1308 48 rc 0 0 0 sco F0_42 Ji=20 297 2409 M=20 0.019 0 (SpecInt95 )A=20 ; : 556 2409 654 48 rc 0 0 0 sco F0_42 Ji=20 665 2409 M=20 -0.408 0 (base)A=20 ; : 1002 2409 654 48 rc 0 0 0 sco F0_42 Ji=20 1111 2409 M=20 0.125 0 (28.0)A=20 ; : 1252 2409 654 48 rc 0 0 0 sco F0_42 Ji=20 1361 2409 M=20 0.125 0 (31.8)A=20 ; : 1502 2409 654 48 rc 0 0 0 sco F0_42 Ji=20 1611 2409 M=20 0.125 0 (31.8)A=20 ; : 1752 2409 654 48 rc 0 0 0 sco F0_42 Ji=20 1861 2409 M=20 0.125 0 (15.0)A=20 ; : 2002 2409 407 48 rc 0 0 0 sco F0_42 Ji=20 2111 2409 M=20 0.125 0 (29.5)A=20 ; : 188 2461 1090 48 rc 0 0 0 sco F0_42 Ji=20 297 2461 M=20 -0.294 0 (SpecFP95)A=20 ; : 556 2461 654 48 rc 0 0 0 sco F0_42 Ji=20 665 2461 M=20 -0.408 0 (base)A=20 ; : 1002 2461 654 48 rc 0 0 0 sco F0_42 Ji=20 1111 2461 M=20 0.125 0 (44.0)A=20 ; : 1252 2461 654 48 rc 0 0 0 sco F0_42 Ji=20 1361 2461 M=20 0.125 0 (49.0)A=20 ; : 1502 2461 654 48 rc 0 0 0 sco F0_42 Ji=20 1611 2461 M=20 0.125 0 (49.0)A=20 ; : 1752 2461 654 48 rc 0 0 0 sco F0_42 Ji=20 1861 2461 M=20 0.125 0 (19.8)A=20 ; : 2002 2461 407 48 rc 0 0 0 sco F0_42 Ji=20 2111 2461 M=20 0.125 0 (23.4)A=20 ; : 188 2513 872 48 rc 0 0 0 sco F0_42 Ji=20 297 2513 M=20 0.169 0 (Stream)A=20 ; : 556 2513 763 48 rc 0 0 0 sco F0_42 Ji=20 665 2513 M=20 0.406 0 (Triad)A=20 ; : 981 2513 763 48 rc 0 0 0 sco F0_42 Ji=20 1090 2513 M=20 0.100 0 (600.0)A=20 ; : 1231 2513 763 48 rc 0 0 0 sco F0_42 Ji=20 1340 2513 M=20 0.100 0 (700.0)A=20 ; : 1481 2513 763 48 rc 0 0 0 sco F0_42 Ji=20 1590 2513 M=20 0.100 0 (700.0)A=20 ; : 1731 2513 678 48 rc 0 0 0 sco F0_42 Ji=20 1840 2513 M=20 0.100 0 (375.0)A=20 ; : 1981 2513 428 48 rc 0 0 0 sco F0_42 Ji=20 2090 2513 M=20 0.100 0 (480.0)A=20 ; : 188 2565 1090 48 rc 0 0 0 sco F0_42 Ji=20 297 2565 M=20 0.230 0 (Q. Chem )A=20 ; : 556 2565 763 48 rc 0 0 0 sco F0_42 Ji=20 665 2565 M=20 0.203 0 (final)A=20 ; : 1002 2565 654 48 rc 0 0 0 sco F0_42 Ji=20 1111 2565 M=20 0.125 0 (75.0)A=20 ; : 1231 2565 763 48 rc 0 0 0 sco F0_42 Ji=20 1340 2565 M=20 0.100 0 (100.0)A=20 ; : 1481 2565 763 48 rc 0 0 0 sco F0_42 Ji=20 1590 2565 M=20 0.100 0 (100.0)A=20 ; : 1752 2565 654 48 rc 0 0 0 sco F0_42 Ji=20 1861 2565 M=20 0.125 0 (45.0)A=20 ; : 2002 2565 407 48 rc 0 0 0 sco F0_42 Ji=20 2111 2565 M=20 0.125 0 (50.0)A=20 ; : 556 2617 981 48 rc 0 0 0 sco F0_42 Ji=20 665 2617 M=20 -0.046 0 (comment)A=20 ; : 842 2617 1567 48 rc 0 0 0 sco F0_42 Ji=20 951 2617 M=20 0.181 0 (all rough est)A=20 ; : 1092 2617 1308 48 rc 0 0 0 sco F0_42 Ji=20 1201 2617 M=20 0.235 0 (triad est.)A=20 ; : 1342 2617 1067 48 rc 0 0 0 sco F0_42 Ji=20 1451 2617 M=20 0.235 0 (triad est.)A=20 ; : 1592 2617 817 48 rc 0 0 0 sco F0_42 Ji=20 1701 2617 M=20 -0.270 0 (good est)A=20 ; : 188 2721 2221 48 rc 0 0 0 sco F0_42 Ji=20 297 2721 M=20 -0.140 0 (Specfp rel to UP2000)A=20 ; : 1002 2721 654 48 rc 0 0 0 sco F0_42 Ji=20 1111 2721 M=20 0.125 0 (0.90)A=20 ; : 1252 2721 654 48 rc 0 0 0 sco F0_42 Ji=20 1361 2721 M=20 0.125 0 (1.00)A=20 ; : 1502 2721 654 48 rc 0 0 0 sco F0_42 Ji=20 1611 2721 M=20 0.125 0 (1.00)A=20 ; : 1752 2721 654 48 rc 0 0 0 sco F0_42 Ji=20 1861 2721 M=20 0.125 0 (0.40)A=20 ; : 2002 2721 407 48 rc 0 0 0 sco F0_42 Ji=20 2111 2721 M=20 0.125 0 (0.48)A=20 ; : 188 2773 2221 48 rc 0 0 0 sco F0_42 Ji=20 297 2773 M=20 0.043 0 (Stream rel to UP2000)A=20 ; : 1002 2773 654 48 rc 0 0 0 sco F0_42 Ji=20 1111 2773 M=20 0.125 0 (0.86)A=20 ; : 1252 2773 654 48 rc 0 0 0 sco F0_42 Ji=20 1361 2773 M=20 0.125 0 (1.00)A=20 ; : 1502 2773 654 48 rc 0 0 0 sco F0_42 Ji=20 1611 2773 M=20 0.125 0 (1.00)A=20 ; : 1752 2773 654 48 rc 0 0 0 sco F0_42 Ji=20 1861 2773 M=20 0.125 0 (0.54)A=20 ; : 2002 2773 407 48 rc 0 0 0 sco F0_42 Ji=20 2111 2773 M=20 0.125 0 (0.69)A=20 ; : 188 2825 2221 48 rc 0 0 0 sco F0_42 Ji=20 297 2825 M=20 0.076 0 (Q. Chem. rel to UP2000)A=20 ; : 1002 2825 654 48 rc 0 0 0 sco F0_42 Ji=20 1111 2825 M=20 0.125 0 (0.75)A=20 ; : 1252 2825 654 48 rc 0 0 0 sco F0_42 Ji=20 1361 2825 M=20 0.125 0 (1.00)A=20 ; : 1502 2825 654 48 rc 0 0 0 sco F0_42 Ji=20 1611 2825 M=20 0.125 0 (1.00)A=20 ; : 1752 2825 654 48 rc 0 0 0 sco F0_42 Ji=20 1861 2825 M=20 0.125 0 (0.45)A=20 ; : 2002 2825 407 48 rc 0 0 0 sco F0_42 Ji=20 2111 2825 M=20 0.125 0 (0.50)A=20 ; : 188 2877 654 48 rc 0 0 0 sco F0_42 Ji=20 297 2877 M=20 -0.206 0 (Avg )A=20 ; : 1002 2877 654 48 rc 0 0 0 sco F0_42 Ji=20 1111 2877 M=20 0.125 0 (0.84)A=20 ; : 1252 2877 654 48 rc 0 0 0 sco F0_42 Ji=20 1361 2877 M=20 0.125 0 (1.00)A=20 ; : 1502 2877 654 48 rc 0 0 0 sco F0_42 Ji=20 1611 2877 M=20 0.125 0 (1.00)A=20 ; : 1752 2877 654 48 rc 0 0 0 sco F0_42 Ji=20 1861 2877 M=20 0.125 0 (0.46)A=20 ; : 2002 2877 407 48 rc 0 0 0 sco F0_42 Ji=20 2111 2877 M=20 0.125 0 (0.55)A=20 ; : 0 2981 1104 48 rc 0 0 0 sco F0_42 Ji=20 14 2981 M=20 -0.108 0 (bang/buck)A=20 ; : 188 2981 1744 48 rc 0 0 0 sco F0_42 Ji=20 297 2981 M=20 -0.190 0 (10000*Avg/cost)A=20 ; : 1002 2981 654 48 rc 0 0 0 sco F0_42 Ji=20 1111 2981 M=20 0.125 0 (2.27)A=20 ; : 1252 2981 654 48 rc 0 0 0 sco F0_42 Ji=20 1361 2981 M=20 0.125 0 (1.83)A=20 ; : 1502 2981 654 48 rc 0 0 0 sco F0_42 Ji=20 1611 2981 M=20 0.125 0 (2.22)A=20 ; : 1752 2981 654 48 rc 0 0 0 sco F0_42 Ji=20 1861 2981 M=20 0.125 0 (1.93)A=20 ; : 2002 2981 407 48 rc 0 0 0 sco F0_42 Ji=20 2111 2981 M=20 0.125 0 (2.96)A=20 ; : 188 3033 1090 48 rc 0 0 0 sco F0_42 Ji=20 297 3033 M=20 -0.248 0 (cost/avg)A=20 ; : 992 3033 654 48 rc 0 0 0 sco F0_42 Ji=20 1101 3033 M=20 (4401)S=20 ; : 1242 3033 654 48 rc 0 0 0 sco F0_42 Ji=20 1351 3033 M=20 (5450)S=20 ; : 1492 3033 654 48 rc 0 0 0 sco F0_42 Ji=20 1601 3033 M=20 (4500)S=20 ; : 1742 3033 654 48 rc 0 0 0 sco F0_42 Ji=20 1851 3033 M=20 (5181)S=20 ; : 1992 3033 417 48 rc 0 0 0 sco F0_42 Ji=20 2101 3033 M=20 (3382)S=20 ; : 0 3085 1431 48 rc 0 0 0 sco F0_42 Ji=20 14 3085 M=20 -0.122 0 (perf density)A=20 ; : 188 3085 1744 48 rc 0 0 0 sco F0_42 Ji=20 297 3085 M=20 0.053 0 (cpu/rack * avg)A=20 ; : 981 3085 763 48 rc 0 0 0 sco F0_42 Ji=20 1090 3085 M=20 0.100 0 (26.72)A=20 ; : 1231 3085 763 48 rc 0 0 0 sco F0_42 Ji=20 1340 3085 M=20 0.100 0 (64.00)A=20 ; : 1481 3085 763 48 rc 0 0 0 sco F0_42 Ji=20 1590 3085 M=20 0.100 0 (26.00)A=20 ; : 1731 3085 678 48 rc 0 0 0 sco F0_42 Ji=20 1840 3085 M=20 0.100 0 (18.53)A=20 ; : 1981 3085 428 48 rc 0 0 0 sco F0_42 Ji=20 2090 3085 M=20 0.100 0 (34.93)A=20 ; pagesave restore Pscript_Win_Driver_Incr begin %%BeginResource: file Pscript_Win_Graphics 2.0 0 /SavedCTM null |/CTMsave{/SavedCTM SavedCTM currentmatrix |}b/CTMrestore{ SavedCTM setmatrix}b/mp null |/ADO_mxRot null |/GDIHMatrix null | /GDIHPatternDict 22 dict | GDIHPatternDict `/PatternType 1 |/PaintType 2 = | /Reps L2?{1}{5}? |/XStep 8 Reps mul |/YStep XStep |/BBox[0 0 XStep YStep]= | /TilingType 1 |/PaintProc{` 1 Lw[]0 setdash PaintData , exec E}b/FGnd nul= l | /BGnd null |/HS_Horizontal{horiz}b/HS_Vertical{vert}b/HS_FDiagonal{fdiag}= b /HS_BDiagonal{biag}b/HS_Cross{horiz vert}b/HS_DiagCross{fdiag biag}b/MaxX= YStep XStep YStep gt{XStep}{YStep}? |/horiz{Reps{0 4 M XStep 0 - 0 8 +}repeat 0= -8 Reps mul + K}b/vert{Reps{4 0 M 0 YStep - 8 0 +}repeat 0 -8 Reps mul + K}b= /biag {Reps{0 0 M MaxXYStep @ - 0 YStep neg M MaxXYStep @ - 0 8 +}repeat 0 -8 R= eps mul + 0 YStep M 8 8 - K}b/fdiag{Reps{0 0 M MaxXYStep @ neg - 0 YStep M MaxXYStep @ neg - 0 8 +}repeat 0 -8 Reps mul + MaxXYStep @ M 8 -8 - K}b E /makehatch{GDIHPatternDict/PaintData 3 -1 $ put CTMsave GDIHMatrix setmat= rix GDIHPatternDict matrix mp CTMrestore ~ U ~ 2 ^ put}b/h0{/h0/HS_Horizontal makehatch}b/h1{/h1/HS_Vertical makehatch}b/h2{/h2/HS_FDiagonal makehatch}= b/h3{ /h3/HS_BDiagonal makehatch}b/h4{/h4/HS_Cross makehatch}b/h5{/h5/HS_DiagCr= oss makehatch}b/GDIBWPatternDict 17 dict @ `/PatternType 1 |/PaintType L2?{1}= {2}? |/RepsV L2?{1}{6}? |/RepsH L2?{1}{5}? |/BBox[0 0 RepsH 1]|/TilingType 1 | /XStep 1 |/YStep 1 |/Height 8 RepsV mul |/Width 8 |/mx[Width 0 0 Height n= eg 0 Height]|/FGnd null |/BGnd null |/SetBGndFGnd L2?{{BGnd null ne{BGnd aload= ! sgco BBox aload ! 2 ^ sub ~ 3 ^ sub ~ rf}if FGnd null ne{FGnd aload ! sgc= o}if} }{{}}? b/PaintProc{` SetBGndFGnd RepsH{Width Height F mx PaintData imagem= ask Width 0 +}repeat E}b E |/GDIBWPatternMx null |/pfprep{save 4 1 $ /PatternOfTheDay 4 1 $ GDIBWPatternDict `/PaintData ~ |/BGnd ~ |/FGnd ~ |= E CTMsave GDIBWPatternMx setmatrix GDIBWPatternDict matrix mp CTMrestore ~ = !}b /hrf null |/prf{pfprep ~ 6 1 $ 5 hrf restore}b/GraphInit{GDIHMatrix null = eq{ /SavedCTM matrix | : ADO_mxRot concat 0 0 snap + : 0.48 @ GDIHPatternDict= ` YStep mul ~ XStep mul ~ dsnap YStep V ~ XStep V ~ E +S/GDIHMatrix matrix currentmatrix readonly | ; : 0.24 -0.24 +S GDIBWPatternDict ` Width Heigh= t E dsnap +S/GDIBWPatternMx matrix currentmatrix readonly | ; ;}if}b/cirp{360= 0 An C}b/ellp{CTMsave + +S 0.5 0 M 0 0 0.5 360 0 An C CTMrestore}b/rrp{/rad ~ = |/y2 ~ |/x2 ~ |/y1 ~ |/x1 ~ | x2 x1 add 2 V y1 M x1 y1 x1 y2 rad arct x1 y2 x2= y2 rad arct x2 y2 x2 y1 rad arct x2 y1 x1 y1 rad arct C}b/RRp{CTMsave + +S/d= yS ~ |/dxS ~ | dxS 2 V 0 M 0 0 0 dyS 0.5 arct 0 dyS dxS dyS 0.5 arct dxS dyS d= xS 0 0.5 arct dxS 0 0 0 0.5 arct C CTMrestore}b %%EndResource %%BeginResource: file Pscript_Win_Graphics_L1 2.0 0 L2? not g{/arct{arcto ! ! ! !}b/GDIpattfill{@ ` BGnd null ne PaintType 2 = eq and{: BGnd aload ! sgco fEOFill{O}{L}? ; FGnd aload ! U/fGray 2 ^ put{2}{= 4}? -1 $}if E @ patterncalc : 4 ^/PaintType get 2 eq{fGray{6 -1 $ sg}{8 -3 $ = sco}? }if fEOFill{eoclip}{clip}? N patternfill ; N}b/hrf{/fGray 1 ^ 6 eq | -4 $= N rp C/fEOFill F | GDIpattfill}b/hfMain{/fEOFill ~ |/fGray ~ | GDIpattfill}b/h= f{T hfMain}b/hfW{F hfMain}b/hs{currentpoint strokepath M hfW}b/pfMain{/fEOFil= l ~ | pfprep GDIpattfill restore N}b/pf{T pfMain}b/pfW{F pfMain}b/ps{currentpoi= nt strokepath M pfW}b/mpstr 1 string |/mp{~ @ length 12 add dict copy ` /PatternCTM matrix currentmatrix |/PatternMatrix ~ |/PatWidth XStep mpstr length mul |/PatHeight YStep |/FontType 3 |/Encoding 256 array | 3 string= 0 1 255{Encoding ~ @ 3 ^ cvs cvn put}for !/FontMatrix matrix |/FontBBox BBox = | /BuildChar{! @ ` XStep 0 FontBBox aload ! setcachedevice/PaintProc , E : = exec ;}b & E ~ @ 3 -1 $ definefont}b/patterncalc{` : PatternCTM setmatrix PatternMatrix concat BBox aload ! ! ! + pathbbox ; PatHeight V ceiling 4 = 1 $ PatWidth V ceiling 4 1 $ PatHeight V floor 4 1 $ PatWidth V floor 4 1 $ 2= ^ sub cvi abs ~ 3 ^ sub cvi abs ~ 4 2 $ PatHeight mul ~ PatWidth mul ~ E}b /patternfill{5 -1 $ @ ` Ji PatternCTM setmatrix PatternMatrix concat 0 2 = ^ 2 ^ M 0 1 mpstr length 1 sub{1 ^ mpstr 3 1 $ put}for ! 2 ^{currentpoint 5 ^{m= pstr S}repeat YStep add M}repeat ! ! ! ! E}b}e %%EndResource %%BeginResource: file Pscript_Win_Graphics_L2 2.0 0 L2? g{/mp/makepattern , |/hrf{6 eq setAorABC setpattern rectfill}b/hf{ setAorABC setpattern O}b/hfW{setAorABC setpattern L}b/hs{setAorABC setpat= tern K}b/pf{pfprep setpattern O restore N}b/pfW{pfprep setpattern L restore N}= b/ps{ pfprep setpattern K restore N}b}e %%EndResource end reinitialize userdict begin /pagesave save def end mysetup concat colspRefresh=20 941 66 N M 4 63 rr : 0 0 0 sco O ;=20 1191 66 N M 4 63 rr : 0 0 0 sco O ;=20 1441 66 N M 4 63 rr : 0 0 0 sco O ;=20 1691 66 N M 4 63 rr : 0 0 0 sco O ;=20 1941 66 N M 4 63 rr : 0 0 0 sco O ;=20 2191 66 N M 4 63 rr : 0 0 0 sco O ;=20 941 137 N M 4 515 rr : 0 0 0 sco O ;=20 1191 137 N M 4 515 rr : 0 0 0 sco O ;=20 1441 137 N M 4 515 rr : 0 0 0 sco O ;=20 1691 137 N M 4 515 rr : 0 0 0 sco O ;=20 1941 137 N M 4 515 rr : 0 0 0 sco O ;=20 2191 137 N M 4 515 rr : 0 0 0 sco O ;=20 941 660 N M 4 154 rr : 0 0 0 sco O ;=20 1191 660 N M 4 154 rr : 0 0 0 sco O ;=20 1441 660 N M 4 154 rr : 0 0 0 sco O ;=20 1691 660 N M 4 154 rr : 0 0 0 sco O ;=20 1941 660 N M 4 154 rr : 0 0 0 sco O ;=20 2191 660 N M 4 154 rr : 0 0 0 sco O ;=20 941 822 N M 4 160 rr : 0 0 0 sco O ;=20 1191 822 N M 4 160 rr : 0 0 0 sco O ;=20 1441 822 N M 4 160 rr : 0 0 0 sco O ;=20 1691 822 N M 4 160 rr : 0 0 0 sco O ;=20 1941 822 N M 4 160 rr : 0 0 0 sco O ;=20 2191 822 N M 4 160 rr : 0 0 0 sco O ;=20 941 990 N M 4 203 rr : 0 0 0 sco O ;=20 1191 990 N M 4 203 rr : 0 0 0 sco O ;=20 1441 990 N M 4 203 rr : 0 0 0 sco O ;=20 1691 990 N M 4 203 rr : 0 0 0 sco O ;=20 1941 990 N M 4 203 rr : 0 0 0 sco O ;=20 2191 990 N M 4 203 rr : 0 0 0 sco O ;=20 941 1201 N M 4 99 rr : 0 0 0 sco O ;=20 1191 1201 N M 4 99 rr : 0 0 0 sco O ;=20 1441 1201 N M 4 99 rr : 0 0 0 sco O ;=20 1691 1201 N M 4 99 rr : 0 0 0 sco O ;=20 1941 1201 N M 4 99 rr : 0 0 0 sco O ;=20 2191 1201 N M 4 99 rr : 0 0 0 sco O ;=20 941 1308 N M 4 99 rr : 0 0 0 sco O ;=20 1191 1308 N M 4 99 rr : 0 0 0 sco O ;=20 1441 1308 N M 4 99 rr : 0 0 0 sco O ;=20 1691 1308 N M 4 99 rr : 0 0 0 sco O ;=20 1941 1308 N M 4 99 rr : 0 0 0 sco O ;=20 2191 1308 N M 4 99 rr : 0 0 0 sco O ;=20 941 1415 N M 4 255 rr : 0 0 0 sco O ;=20 1191 1415 N M 4 255 rr : 0 0 0 sco O ;=20 1441 1415 N M 4 255 rr : 0 0 0 sco O ;=20 1691 1415 N M 4 255 rr : 0 0 0 sco O ;=20 1941 1415 N M 4 255 rr : 0 0 0 sco O ;=20 2191 1415 N M 4 255 rr : 0 0 0 sco O ;=20 941 1678 N M 4 7 rr : 0 0 0 sco O ;=20 1191 1678 N M 4 7 rr : 0 0 0 sco O ;=20 1441 1678 N M 4 7 rr : 0 0 0 sco O ;=20 1691 1678 N M 4 7 rr : 0 0 0 sco O ;=20 1941 1678 N M 4 7 rr : 0 0 0 sco O ;=20 2191 1678 N M 4 7 rr : 0 0 0 sco O ;=20 941 1693 N M 4 258 rr : 0 0 0 sco O ;=20 1191 1693 N M 4 258 rr : 0 0 0 sco O ;=20 1441 1693 N M 4 258 rr : 0 0 0 sco O ;=20 1691 1693 N M 4 258 rr : 0 0 0 sco O ;=20 1941 1693 N M 4 258 rr : 0 0 0 sco O ;=20 2191 1693 N M 4 258 rr : 0 0 0 sco O ;=20 941 1959 N M 4 47 rr : 0 0 0 sco O ;=20 1191 1959 N M 4 47 rr : 0 0 0 sco O ;=20 1441 1959 N M 4 47 rr : 0 0 0 sco O ;=20 1691 1959 N M 4 47 rr : 0 0 0 sco O ;=20 1941 1959 N M 4 47 rr : 0 0 0 sco O ;=20 2191 1959 N M 4 47 rr : 0 0 0 sco O ;=20 941 2014 N M 4 99 rr : 0 0 0 sco O ;=20 1191 2014 N M 4 99 rr : 0 0 0 sco O ;=20 1441 2014 N M 4 99 rr : 0 0 0 sco O ;=20 1691 2014 N M 4 99 rr : 0 0 0 sco O ;=20 1941 2014 N M 4 99 rr : 0 0 0 sco O ;=20 2191 2014 N M 4 99 rr : 0 0 0 sco O ;=20 941 2121 N M 4 7 rr : 0 0 0 sco O ;=20 1191 2121 N M 4 7 rr : 0 0 0 sco O ;=20 1441 2121 N M 4 7 rr : 0 0 0 sco O ;=20 1691 2121 N M 4 7 rr : 0 0 0 sco O ;=20 1941 2121 N M 4 7 rr : 0 0 0 sco O ;=20 2191 2121 N M 4 7 rr : 0 0 0 sco O ;=20 941 2136 N M 4 163 rr : 0 0 0 sco O ;=20 1191 2136 N M 4 163 rr : 0 0 0 sco O ;=20 1441 2136 N M 4 163 rr : 0 0 0 sco O ;=20 1691 2136 N M 4 163 rr : 0 0 0 sco O ;=20 1941 2136 N M 4 163 rr : 0 0 0 sco O ;=20 2191 2136 N M 4 163 rr : 0 0 0 sco O ;=20 941 2307 N M 4 829 rr : 0 0 0 sco O ;=20 1191 2307 N M 4 829 rr : 0 0 0 sco O ;=20 1441 2307 N M 4 829 rr : 0 0 0 sco O ;=20 1691 2307 N M 4 829 rr : 0 0 0 sco O ;=20 1941 2307 N M 4 829 rr : 0 0 0 sco O ;=20 2191 2307 N M 4 829 rr : 0 0 0 sco O ;=20 289 129 N M 1906 8 rr : 0 0 0 sco O ;=20 289 652 N M 1906 8 rr : 0 0 0 sco O ;=20 289 814 N M 1906 8 rr : 0 0 0 sco O ;=20 289 982 N M 1906 8 rr : 0 0 0 sco O ;=20 289 1193 N M 1906 8 rr : 0 0 0 sco O ;=20 289 1300 N M 1906 8 rr : 0 0 0 sco O ;=20 289 1407 N M 1906 8 rr : 0 0 0 sco O ;=20 289 1670 N M 1906 8 rr : 0 0 0 sco O ;=20 289 1685 N M 1906 8 rr : 0 0 0 sco O ;=20 289 1951 N M 1906 8 rr : 0 0 0 sco O ;=20 289 2006 N M 1906 8 rr : 0 0 0 sco O ;=20 289 2113 N M 1906 8 rr : 0 0 0 sco O ;=20 289 2128 N M 1906 8 rr : 0 0 0 sco O ;=20 289 2299 N M 1906 8 rr : 0 0 0 sco O ;=20 289 2873 N M 1906 4 rr : 0 0 0 sco O ; : 0 39 2446 3130 rc=20 0 0 N M 1 1 rr ;=20 LH=20 pagesave restore (%%[ Page: 1 ]%%) =3D %%PageTrailer %%Trailer %%DocumentNeededFonts: Times-Roman %%DocumentSuppliedFonts:=20 Pscript_Win_Driver_Incr dup /terminate get exec savelevel0 restore=20 %%Pages: 1 (%%[ 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