tobias kind fiehnlab at uc davis genome center november 2006
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1
Tobias Kind FiehnLab at UC Davis Genome Center
November 2006
Benchmarking JChem Oracle and Instant-JChem (and
more)
Free Academic Licenses for JChem and Instant JChem provided by
2
ChemAxon product suite
We have free academic licenses for all products
Source: Chemaxon.com
3
Metabolomics @ Fiehnlab- The science of the small molecules
Compound Classes:• sugars• amino acids• steroids• fatty acids• lipids• phospholipids • organic acids ...
Molecules under investigation (shown with ChemAxon Marvin)
3D model of a molecule with surface plot(shown with ChemAxon MarvinSpace)
Visit us @ fiehnlab.ucdavis.edu
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Metabolomics is a truly emerging science
...tries to identify all small molecules (< 2000 Da)in all life forms in a comprehensive manner
Life Science Tree:
Genomics (DNA) Transcriptomics (RNA) Proteomics (Proteins)Metabolomics (Small Molecules)
5
Techniques and tools
• Analytical techniques (LC-MS, GC-MS, NMR, IR)• BioInformatics, Cheminformatics
Liquid Chromatography
LC-MS
Gas Chromatography
GC-TOF-MS
BioInformatics and CheminformaticsStatistics (Statistica Dataminer) Open Source + commercial software
LTQ-FT-MS
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We use cheminformatics tools for mass spectrometry based structure elucidation
See our BMC Bioinformatics paper:Metabolomic database annotations via query of elemental compositions: Mass accuracy is insufficient even at less than 1 ppm ; http://www.biomedcentral.com/1471-2105/7/234
No. Formula Mass 861 C61H22N4OP2S2 952.071862 C61H22N4O3P2S 952.089863 C61H23N4OP3S 952.081864 C61H23N4O3P3 952.098865 C61H24N4OP4 952.09866 C61H29O4PS3 952.097867 C61H30O2P2S3 952.088868 C61H31P3S3 952.08869 C61H31O2P3S2 952.098870 C61H32P4S2 952.09871 C61H119N6O 951.945872 C61H123O4S 951.914873 C61H123O6 951.932874 C61H124O2PS 951.906875 C61H124O4P 951.924876 C61H125O2P2 951.915877 C61H126P3 951.907878 C61H127N2S2 951.944879 C61H127N2O2S 951.962
AutomaticIsotopicPatternFilter
No. Formula Mass 1 C41H28O27 952.0822 C41H28N8O20 952.1423 C41H28N16O13 952.2024 C41H28N24O6 952.262
FormulaGenerator
{fast approach but non comprehensive}
O
OO
O O
O
O
O
OO
OH
OH
OHOH
OH
OHOH
OH
OH
OH
OH O
OHOH
OOH
O
(one possible result)
mass spectrummolecular ionisotopic patternaccurate mass
{exhaustive drill down}
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yes
no
{slow approach,needs constraints,comprehensive}
molecular isomer
generator
DBSearch
966964962960958956954952950948946944
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Formula: C41H28O27one structural isomer shownmillions of isomers possible
No. Formula Mass 861 C61H22N4OP2S2 952.071862 C61H22N4O3P2S 952.089863 C61H23N4OP3S 952.081864 C61H23N4O3P3 952.098865 C61H24N4OP4 952.09866 C61H29O4PS3 952.097867 C61H30O2P2S3 952.088868 C61H31P3S3 952.08869 C61H31O2P3S2 952.098870 C61H32P4S2 952.09871 C61H119N6O 951.945872 C61H123O4S 951.914873 C61H123O6 951.932874 C61H124O2PS 951.906875 C61H124O4P 951.924876 C61H125O2P2 951.915877 C61H126P3 951.907878 C61H127N2S2 951.944879 C61H127N2O2S 951.962
AutomaticIsotopicPatternFilter
No. Formula Mass 1 C41H28O27 952.0822 C41H28N8O20 952.1423 C41H28N16O13 952.2024 C41H28N24O6 952.262
FormulaGeneratorFormula
Generator
{fast approach but non comprehensive}
O
OO
O O
O
O
O
OO
OH
OH
OHOH
OH
OHOH
OH
OH
OH
OH O
OHOH
OOH
O
(one possible result)
mass spectrummolecular ionisotopic patternaccurate mass
{exhaustive drill down}
966964962960958956954952950948946944m/z
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yes
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{slow approach,needs constraints,comprehensive}
molecular isomer
generator
DBSearch
DBSearch
966964962960958956954952950948946944
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966964962960958956954952950948946944
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Formula: C41H28O27one structural isomer shownmillions of isomers possible
7
What areJChem and Instant-JChem?
JChem and Instant JChem are cheminformatics tools for handling small molecule structures together with substance data (logP, fingerprint, pKa, toxicity, meta-information) + searches + filter + web connections and moreDifference: JChem = complex package and Instant-JChem = one single tool
Instant-JChemJChemPicture ChemAxon
8
Benchmarking Instant-JChem and JChem Oracle (and more)
Myth 1: JChem+Oracle is faster than Instant-JChem+Apache Derby – Reality: lets see...
Myth 2: JAVA is slow – Reality: Its fast (70% of C++).
Myth 3: Old Intel Netbust Xeons (Netburst) are slow – Reality: Yes.
Myth 4: Oracle is a hazzelfree and handsome DB for beginners – Reality:
Myth 6: 2 CPUs are better than one – Reality: Yes.
Myth 7: Comparing apples with oranges (in germany pears) is unfair - c'mon...
Only first myth left.
9
A bit of Oracle Reality
Oracle works, lots of people invested lots of mony (ORCL market cap = 92 billion dollars)Its good for large data (TByte) - Its overkill for a small DB.
If you plan to install it on your production workstation (a big No No)• It will eat 600-800 MB of your valuable RAM (for nothing, on WINXP 32 bit)• It will create 15,049 files in 2,029 folders (for what?)• It will create a lot of hassle with certain network setups (DHCP)• RTFM (read the … manual) is no joke and you need to learn SQL (try the free Aqua Data Studio) • Complete learning will take you 1..2 years, but gives you extreme flexibility
If you plan to install JCHEM + Oracle you need• JChem (includes cartride for Oracle)• Oracle• Apache Tomcat• 1-2 days time (ChemAxon documentation is good, but too many things can go wrong with Oracle)
Happy Oracle Acepaid 10K for certificate
1st time Oracle user
10
A bit of Instant JChem Reality v1.0
A) Download
B) Install
C) It Runs instantly
http://www.chemaxon.com/instantjchem/
• inbuilt Apache Derby DB• JAVA engine included• complete JChem included • out-of-the-box tool • can connect to other DBs
11
During import in Instant JChem only one CPU works. The fingerprint calculation is probably not multi-threaded. (Solution: work pool = make pool for n CPUs)
Short import time is critical for user convinience, but not for long term database projects.
Importing Structures into Instant JChem
12
Importing Structures into Instant-JChem influence of JAVA hotspot compiler
JAVA VM runs in to modes: with client compiler and server compiler (directories under JRE)If you run any calculation intensive programs alwyas use server mode, in a batch file call java –server XYZ
Good and fast
Bad and slow
13
Import of 250k structures (NCI99.smi) into Instant-JChem: Server JVM is 20% faster!
Influence of JAVA hotspot compilerImporting Structures into Instant-JChem
Testsystem: Dual Opteron 254 (2,8 GHz); WINXP-32bit; 2.88 GByte RAM (10 GByte/s transfer rate);ARECA-1120 RAID5 (read/write 200 MByte/s and burst rate 500 MByte/s); QSOFT Ramdisk Enterprise 1,2 GByte ( read write 1 GByte/s transfer)
0
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Import of 250k structures into Instant-JChem
lower is better
14
SMILES: NC1=CC=NC2=C1C=CC(Cl)=C2
http://en.wikipedia.org/wiki/Lipinski's_Rule_of_Five(mass() <= 500) && (logP() <= 5) && (donorCount() <= 5) && (acceptor Count() <= 10) (acceptor count for C and H)
Influence of JAVA hotspot compiler with Instant-JChem
JAVA server mode: 15 seconds (30% faster)JAVA client mode: 21 seconds
If you want to speed-up this queryyou need to pre-calculate and include all descriptors already in the database
Task:Search for substructure in a 3 million compound database and calculate the Lipinski Rule of 5 on all the 4632 results.
N
NCl
15
Influence of number of CPUs with Instant-JChem
Doing the Lipinski utilizes both CPU cores!Try Intel Quad! Try Opteron 8x!
2 CPUs 1 CPU
JAVA server mode:
15 seconds
33 seconds
JAVA client mode:
21 seconds
44 seconds
Testsystem: Dual Opteron 254 (2,8 GHz); WINXP-32bit; 2.88 GByte RAM (10 GByte/s transfer rate);ARECA-1120 RAID5 (read/write 200 MByte/s and burst rate 500 MByte/s); QSOFT Ramdisk Enterprise 1,2 GByte ( read write 1000 MByte/s transfer)
Task: Search for a substructure in a 3 million compound database and calculate the Lipinski Rule of 5 on all the 4632 results
16
Influence of number of CPUs with Instant-JChem
Doing the Lipinski utilizes multiple CPU cores!However a single logP calculation is dependent on CPU speed, not CPU cores.
Use AMD Opteron 8xCPU systems (or better). For cheaper setups use Intel Core 2 Quad (QX6700).
1 CPU (1x2.8 GHz)* 2 CPUs (1x2.8 GHz)*8 CPUs** (2 GHz)
33 seconds 15 seconds 4 seconds
Testsystem*: Dual Opteron 254 (2.8 GHz); WINXP-32bit; 2.88 GByte RAM (10 GByte/s transfer rate);Testsystem** : 4 x Dual-Core Opteron 870 2.0 GHz; CentOS 64-bit, 32 GByte RAM, 3.5 GB set for JAVA heap space
Task: Search for a substructure in a 3 million compound database and calculate the Lipinski Rule of 5 on all the 4632 results (on the fly)
N
NCl
17
Influence of number of CPUs on complex calculations with Instant-JChem
Hits1 CPU (1x2.8 GHz)*
2 CPUs (1x2.8 GHz)* 8 CPUs** (2 GHz)
Bioavailability 832 30 s 17 s 7.5 s
Ghose filter 255 14 s 8 s 4.4 s
Lead likeness 531 53 s 25 s 9.8 s
Lipinski rule of 5 776 15 s 7.5 s 4.7 s
Muegge filter 277 7.5 s 4.2 3.4 s
Veber filter 774 1.7 s 1.5 2.5 sTestsystem*: Dual Opteron 254 (2,8 GHz); WINXP-32bit;
2.88 GByte RAM (10 GByte/s transfer rate);Testsystem** : 4 x Dual-Core Opteron 870 2 GHz; CentOS 64-bit,
32 GByte RAM, 3.5 GB set for JAVA heap space
Task: Search in 1000 compounds from PubChem-1000-demo and calculate on-the-fly:
Take home message: The more complex the request – the more CPUs you need.
The lead likeness has 7 filters and reaches a 5-8 times speed-up with more CPUs.
18
Scaling complex calculations to larger DBs with Instant-JChem
HitsDirectQuery
Calculation8 CPUs** (2
GHz)
extrapolated time from
1000er DBObtained speed-up
Bioavailability 227,997 <1s 380 s 2055 s 5
Ghose filter 160,047 <1s 230 s 2762 s 12
Lead likeness 159,656 <1s 1255 s 2947 s 2
Lipinski rule of 5 199,821 <1s 176 s 1210 s 7
Muegge filter 145,234 <1s 299 s 1783 s 6
Veber filter 215,377 <1s 20 s 696 s 35Testsystem** : 4 x Dual-Core Opteron 870 2 GHz; CentOS 64-bit,
32 GByte RAM, 3.5 GB max set for JAVA heap space
1.5 GByte JAVA heap space used.
Task: Now search in 250,000 compounds from NCI2000 and calculate on the fly:
Take home message: Do not extrapolate calculational times from different or smaller DBs. The speedups here are 2-35 larger than expected.
Pre-calculate values once and store them in the DB and query values later.
19
Derby database file sizes for Instant- JChem+Apache DerbyCompounds only
100k structures ~30 MByte1 Mio structures ~300 MByte10 Mio structures ~3 GByte20 Mio structures ~6 Gbyte
If you have dual or quad cores turn drive compression on.You can save almost 50% space, speed overhead is low.
20
Instant-JChem on disk based and RAMDisk based systemsPeople who said the OS has efficient disk caching lied.
A large RAMDISK can speed up your system extremely.
A) If you have money – buy a Solid State DiskRAMSAN-400; 128 GByte; Price $252,7203,000 MB/s random sustained external throughput.
B) If you have some money – buy a RAID5 card.ARECA ARC-1120 for 8 HDs, Price $500200-400 MB/s read and write access
C) If you have litte money – buy a RAMDISK and stuff as much RAM in as possible (take a 64-bit OS)500-1000 MB/s read and write access
...a normal hard drive has ~30-50 MB/s transfer rate
21
Instant-JChem on disk based and RAMdisk based system
Load 3 Mio compound DB from Ramdisk: 2 secondsLoad 3 Mio compound DB from RAID5 disk: 11 seconds (factor 5)
Search Substructure from RAMDISK DB: instant (imemory buffered)Search Substructure from RAID5 DB: instant (memory buffered)
A) Heap Memory max 800 MByte (OK)
B) Heap Memory max 200 MByte (too low)
Load 3 Mio compound DB from Ramdisk: 19 secondsLoad 3 Mio compound DB from RAID5 disk: 25 seconds (factor 1.3)
Search Substructure from RAMDISK DB: 22 secondsSearch Substructure from RAID5 DB: 38 seconds (factor 1.7)
Take home message: give JAVA (JChem) as much heap memory as you can. For 3 Millionstructures you need minimum 300 MByte heap space.
No Heap memory:Performance degradation:Everything must be read from disk; My RAID5 is already extremely fast, still the RAMDISK is even faster
22
JChem+Oracle DB on Xeonvs.
Instant-JChem+Apache Derby DB on Opteron(apples vs. oranges)
3GHz Dual Xeon with 2GB system memory - JChem+Oracle DB = 5801 seconds (96 minutes)
2.8 GHz Dual Opteron with 2,88 GB memory - Instant-JChem+Apache Derby = 5333 seconds (88 minutes)
Task:Import and indexing 3 million compounds (NCI2000 duplicated to 3 Mio)
Source Xeon data: Oracle Cartridge Benchmark http://www.chemaxon.com/jchem/FAQ.html#benchmark3
Take home message: If you have a (modest) modern computer it can handle JChem and Instant-JChem and a local database can be faster than a remote database
23
Instant-JChem+Apache Derby DB on Socrates*vs.
Instant-JChem+Apache Derby DB on Dual Opteron 2.8 GHz (WIN-XP)**vs.
JChem+Oracle DB on Dual Xeon 3 GHz (W2003 Server)***(more apples vs. oranges)
Task: Search for a substructures in a 3 million compound database (NCI2000x12)
# Hits
Instant-JChem+Derb
y*
Instant-JChem+Derby
**JChem+Oracle***
C1CN1c2cnnc3c(cncc23)C4=CSC=C4 0 0 0 0
O=C1ONC(N1c2ccccc2)c3ccccc3 204 0 0 0
[#6]-c1cc(-[#6])nc(NS(=O)(=O)c2ccccc2)n1 1224 0 0 0
c1ncc2ncnc2n1 65,208 2 s 7 s 14 s
Clc1ccccc1 274,608 5 s 15 s 43 s
O=Cc1ccccc1 443,580 9 s 28 s 85 sTake home message: Instant-JChem is fast (nothing more).Source: Instant-JChem (own system), JChem (ChemAxon website)
Socrates*: 4x Dual Opteron 870 2GHz; CentOS 64-bit, 32 GByte RAM, 4 GB set for JAVA
Opteron**: Dual Opteron 254 (2,8 GHz); WINXP-32bit; 2.88 GByte RAM (10 GByte/s transfer );ARECA-1120 RAID5 (read/write 200 MByte/s and burst rate 500 MByte/s); QSOFT Ramdisk Enterprise 1,2 GByte ( read write 1000 MByte/s transfer)
Xeon: Dual Intel Xeon 3GHz, 2GB memory, 160GB IDE hard drive; Windows 2003 5.2; Oracle 9.2.0.7.0 DB buffer 1 GB; 1.5.0_06-b05 Apache Tomcat/5.5.12
24
A 20 million compound DB with Instant-JChem in a local Derby DB (WinXP-32bit)
• Import is heavily disk dependent• several hundred million read/write operations to disk (JAVA writes in 4 KB chunks)• JAVA heap space used during import is around 600 MByte• import time is not linear anymore• WIN XP 32-bit + NTFS desperatly try to cache the 6 GByte database file, even if there is only 3 GByte memory maximum available (1 GByte max for cache).
• index creation (import smiles): 20h (too long)
• open index for search: 1 min
• substructure search: > 1min (to long)
• 20 Mio currently to large for Instant-JChem v1.0 use JChem+Oracle (or MySQL, MS SQL)
• Aim: Full PubChem data (15-20 Mio) locally
25
Some general JAVA + JChem speed advices
1. Always use server JVM (check directory bin\client and bin\server)check batch or sh file options for JAVA –server xyz xyz.jar
2. Use 64-bit systems; the JAVA maximum heap space for LINUX or WINas 32-bit system is only 1.6 GByte -Xms=1600m
3. Use only multicore machines (AMD Opterons, Intel Quad)
4. Use the fastest disks you can buy (WD Raptor) or use RAID5 or RAID6for large files (PubChem SDF data for 5 Mio compounds = 30 GByte)
5. Give Instant-JChem as much memory as you have - minimum 500 MBytefor extreme speed (no wait time for searches)
26
Let’s not forget competitors
Two reasons:
• The programs work under WINDOWS and LINUX• ChemAxon has the best and most responsive public forum:
Critics is taken seriously, requested features are implemented ASAP,and a public response within 1-3 days. WHY? Many commercial licencees.Remember, for academics all free.
Many good systems exist:
MDL (ISIS Base), ACDLabs (ACD/ChemFolder Enterprise), Tripos (Sybyl+Auspyx), Molecular Networks (Carol), CDK and Taverna, Accelrys (Accord), Daylight (Thor and Merlin), CambridgeSoft (ChemOffice Enterprise), Molsoft (ICM+MolCart)
Why is ChemAxon better?
$+ + = $$+ + =
27
Results and conclusionJChem Oracle vs. Instant-JChem
1. Instant-JChem+Derby is as fast or faster than JChem+Oracle for DBs < 3 Mio
2. If you want to have fun and results at your fingertip: Instant-JChem
3. If you want extreme flexibility and you know JAVA+SQL: JChem-Oracle
4. We are far away from handling billions of structures in a DB (with modest efforts)We will handle such large number of structures file stream based with cluster support.
5. Software producers (in general) need to put more efforts into software development for multi-core CPUs + clusters under Windows and LINUX.
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