The description
The CLC Genomics Workbench is a powerful software solution and a comprehensive suite of tools in the field of genomics, modeling, epigenetics and metagenomics that help scientists and professionals use cutting-edge technology , unique features and algorithms. Take the challenges of analyzing genetic information slowly. This user-friendly bioinformatics software allows you to fully analyze your NGS data. You can also find relationships between symbiotic microorganisms with this software and easily explore complex metagenomic data.
CLC Genomics Workbench software supports NGS platforms such as Illumina, IonTorrent, PacBio, and GeneReader and provides cellular RNA workflows for various gene-level analyses. The software also allows you to make important discoveries in human disease research and perform your best analyses.
Features and Functions of CLC Genomics Workbench Software:
- Analysis of genetic data
- Use advanced technology and algorithms
- NGS data analysis
- Professional and attractive user interface
- Research and analysis of information in the field of biological sciences
Required configuration
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QIAGEN CLC Genomics Workbench 22:
- Windows 7, Windows 8, Windows 10, Windows 11, Windows Server 2012, Windows Server 2016 and Windows Server 2019
- Mac: macOS 10.15, macOS 11 to macOS 12.01. Macs with the Apple M1 chip are supported. The software should run smoothly on macOS versions newer than those listed, but we don’t guarantee it.
- Linux: RHEL 7 and later, SUSE Linux Enterprise Server 12 and later. The software should run smoothly on other recent Linux systems, but we don’t guarantee it. To use BLAST related features, libnsl.so.1 is required.
- 64-bit operating system
- 2 GB of RAM required
- 4 GB of RAM recommended
- 1024 x 768 display required
- 1600 x 1200 display recommended
- Intel or AMD processor required
Special Requirements for the 3D Molecule Viewer
- Required: A graphics card capable of supporting OpenGL 2.0.
- Required: Updated graphics drivers. Please make sure the latest graphics card driver is installed.
- Recommended: A discrete graphics card from Nvidia or AMD/ATI. Modern integrated graphics cards (such as the Intel HD Graphics series) can also be used, but they are generally slower than discrete cards.
- Note: Indirect rendering (such as x11 forwarding via ssh), remote desktop/VNC connection, and running in virtual machines are not supported.
Special requirements for read mapping
The figures below indicate the minimum and recommended memory for systems running mapping and analysis tasks. Suggested requirements are based on genome size.
- E. coli K12 (4.6 megabases)
- Minimum: 2 GB of RAM
- Recommended: 4 GB of RAM
- C. elegans (100 megabases) and Arabidopsis thaliana (120 megabases)
- Minimum: 2 GB of RAM
- Recommended: 4 GB of RAM
- Zebrafish (1.5 gigabase)
- Minimum: 2 GB of RAM
- Recommended: 4 GB of RAM
- Human (3.2 gigabases) and Mouse (2.7 gigabases)
- Minimum: 6 GB of RAM
- Recommended: 8 GB of RAM
Special requirements for de novo assembly
de novo assembly may require more memory than indicated above – this depends on both the number of reads, the error profile and the complexity and size of the genome. See our de novo assembly white paper for examples of memory usage of various datasets.
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Editions: New in v22 and 21, QIAGEN CLC Genomics now offers three key offerings, with packages ranging from basic (Main workbench QIAGEN CLC), Advanced (QIAGEN CLC Genomic Workbench) and premium (QIAGEN CLC Genomics Workbench Premium), to meet your specific sequence and omics data analysis needs.
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