hardware description language (hdl) coder add-on product Search Results


add-on  (Groupware Technologies Inc)
90
Groupware Technologies Inc add-on
Add On, supplied by Groupware Technologies Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/add-on/product/Groupware Technologies Inc
Average 90 stars, based on 1 article reviews
add-on - by Bioz Stars, 2026-03
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bioinformatics toolbox add-on  (MathWorks Inc)
90
MathWorks Inc bioinformatics toolbox add-on

Bioinformatics Toolbox Add On, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/bioinformatics toolbox add-on/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
bioinformatics toolbox add-on - by Bioz Stars, 2026-03
90/100 stars
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oxygenscan add-on  (RR Mechatronics)
90
RR Mechatronics oxygenscan add-on

Oxygenscan Add On, supplied by RR Mechatronics, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/oxygenscan add-on/product/RR Mechatronics
Average 90 stars, based on 1 article reviews
oxygenscan add-on - by Bioz Stars, 2026-03
90/100 stars
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interrupted time series analysis add-on command  (STATA Corporation)
90
STATA Corporation interrupted time series analysis add-on command

Interrupted Time Series Analysis Add On Command, supplied by STATA Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/interrupted time series analysis add-on command/product/STATA Corporation
Average 90 stars, based on 1 article reviews
interrupted time series analysis add-on command - by Bioz Stars, 2026-03
90/100 stars
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fluidfm add on  (Cytosurge ag)
90
Cytosurge ag fluidfm add on
Studied small‐scale metal AM techniques. Techniques and printed metals tested in this study, including literature values and measured data for the mechanical performance of the printed materials: E : Young's modulus, H : hardness, σ y : yield stress, σ 0.07 : flow stress at 7% strain. For inks, as‐deposited (ad.) and thermally annealed (ann.) metals are discriminated. References in the first column refer to historically important publications and notable review articles. Consult Table S1, Supporting Information, for average values of the mechanical properties of all tested samples including standard deviations. *Note: Pt nanoparticles embedded in a carbonaceous matrix
Fluidfm Add On, supplied by Cytosurge ag, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/fluidfm add on/product/Cytosurge ag
Average 90 stars, based on 1 article reviews
fluidfm add on - by Bioz Stars, 2026-03
90/100 stars
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cannabidiol (gwp42003-p, cbd)  (GW Research Ltd)
90
GW Research Ltd cannabidiol (gwp42003-p, cbd)
Studied small‐scale metal AM techniques. Techniques and printed metals tested in this study, including literature values and measured data for the mechanical performance of the printed materials: E : Young's modulus, H : hardness, σ y : yield stress, σ 0.07 : flow stress at 7% strain. For inks, as‐deposited (ad.) and thermally annealed (ann.) metals are discriminated. References in the first column refer to historically important publications and notable review articles. Consult Table S1, Supporting Information, for average values of the mechanical properties of all tested samples including standard deviations. *Note: Pt nanoparticles embedded in a carbonaceous matrix
Cannabidiol (Gwp42003 P, Cbd), supplied by GW Research Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/cannabidiol (gwp42003-p, cbd)/product/GW Research Ltd
Average 90 stars, based on 1 article reviews
cannabidiol (gwp42003-p, cbd) - by Bioz Stars, 2026-03
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primer v6 permanova+ add-on  (PRIMER-E)
90
PRIMER-E primer v6 permanova+ add-on
Studied small‐scale metal AM techniques. Techniques and printed metals tested in this study, including literature values and measured data for the mechanical performance of the printed materials: E : Young's modulus, H : hardness, σ y : yield stress, σ 0.07 : flow stress at 7% strain. For inks, as‐deposited (ad.) and thermally annealed (ann.) metals are discriminated. References in the first column refer to historically important publications and notable review articles. Consult Table S1, Supporting Information, for average values of the mechanical properties of all tested samples including standard deviations. *Note: Pt nanoparticles embedded in a carbonaceous matrix
Primer V6 Permanova+ Add On, supplied by PRIMER-E, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/primer v6 permanova+ add-on/product/PRIMER-E
Average 90 stars, based on 1 article reviews
primer v6 permanova+ add-on - by Bioz Stars, 2026-03
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ssm-5000a add-on  (Shimadzu Corporation)
90
Shimadzu Corporation ssm-5000a add-on
Studied small‐scale metal AM techniques. Techniques and printed metals tested in this study, including literature values and measured data for the mechanical performance of the printed materials: E : Young's modulus, H : hardness, σ y : yield stress, σ 0.07 : flow stress at 7% strain. For inks, as‐deposited (ad.) and thermally annealed (ann.) metals are discriminated. References in the first column refer to historically important publications and notable review articles. Consult Table S1, Supporting Information, for average values of the mechanical properties of all tested samples including standard deviations. *Note: Pt nanoparticles embedded in a carbonaceous matrix
Ssm 5000a Add On, supplied by Shimadzu Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/ssm-5000a add-on/product/Shimadzu Corporation
Average 90 stars, based on 1 article reviews
ssm-5000a add-on - by Bioz Stars, 2026-03
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tip sonicator qsonica q500 with multi-tip add-on  (Qsonica LLC)
90
Qsonica LLC tip sonicator qsonica q500 with multi-tip add-on
Studied small‐scale metal AM techniques. Techniques and printed metals tested in this study, including literature values and measured data for the mechanical performance of the printed materials: E : Young's modulus, H : hardness, σ y : yield stress, σ 0.07 : flow stress at 7% strain. For inks, as‐deposited (ad.) and thermally annealed (ann.) metals are discriminated. References in the first column refer to historically important publications and notable review articles. Consult Table S1, Supporting Information, for average values of the mechanical properties of all tested samples including standard deviations. *Note: Pt nanoparticles embedded in a carbonaceous matrix
Tip Sonicator Qsonica Q500 With Multi Tip Add On, supplied by Qsonica LLC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/tip sonicator qsonica q500 with multi-tip add-on/product/Qsonica LLC
Average 90 stars, based on 1 article reviews
tip sonicator qsonica q500 with multi-tip add-on - by Bioz Stars, 2026-03
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i5 6 nt unique dual indexing add-on kit  (Lexogen GmbH)
90
Lexogen GmbH i5 6 nt unique dual indexing add-on kit
Studied small‐scale metal AM techniques. Techniques and printed metals tested in this study, including literature values and measured data for the mechanical performance of the printed materials: E : Young's modulus, H : hardness, σ y : yield stress, σ 0.07 : flow stress at 7% strain. For inks, as‐deposited (ad.) and thermally annealed (ann.) metals are discriminated. References in the first column refer to historically important publications and notable review articles. Consult Table S1, Supporting Information, for average values of the mechanical properties of all tested samples including standard deviations. *Note: Pt nanoparticles embedded in a carbonaceous matrix
I5 6 Nt Unique Dual Indexing Add On Kit, supplied by Lexogen GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/i5 6 nt unique dual indexing add-on kit/product/Lexogen GmbH
Average 90 stars, based on 1 article reviews
i5 6 nt unique dual indexing add-on kit - by Bioz Stars, 2026-03
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permanova + add-on  (PRIMER-E)
90
PRIMER-E permanova + add-on
Studied small‐scale metal AM techniques. Techniques and printed metals tested in this study, including literature values and measured data for the mechanical performance of the printed materials: E : Young's modulus, H : hardness, σ y : yield stress, σ 0.07 : flow stress at 7% strain. For inks, as‐deposited (ad.) and thermally annealed (ann.) metals are discriminated. References in the first column refer to historically important publications and notable review articles. Consult Table S1, Supporting Information, for average values of the mechanical properties of all tested samples including standard deviations. *Note: Pt nanoparticles embedded in a carbonaceous matrix
Permanova + Add On, supplied by PRIMER-E, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/permanova + add-on/product/PRIMER-E
Average 90 stars, based on 1 article reviews
permanova + add-on - by Bioz Stars, 2026-03
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cherry 6k snp array with +9k add-on (cherry 6+9k snp array)  (Illumina Inc)
90
Illumina Inc cherry 6k snp array with +9k add-on (cherry 6+9k snp array)
Summary of SNPs available per source at each stage of development of the +9K add-on for the cherry <t> 6K </t> SNP array.
Cherry 6k Snp Array With +9k Add On (Cherry 6+9k Snp Array), supplied by Illumina Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/cherry 6k snp array with +9k add-on (cherry 6+9k snp array)/product/Illumina Inc
Average 90 stars, based on 1 article reviews
cherry 6k snp array with +9k add-on (cherry 6+9k snp array) - by Bioz Stars, 2026-03
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Image Search Results


Journal: STAR Protocols

Article Title: Integrated functional neuronal network analysis of 3D silk-collagen scaffold-based mouse cortical culture

doi: 10.1016/j.xpro.2020.100292

Figure Lengend Snippet:

Article Snippet: MATLAB Bioinformatics Toolbox Add-on , https://www.mathworks.com/products/bioinfo.html , n/a.

Techniques: Recombinant, TaqMan Assay, Software, Molecular Weight, Dissection, Microscopy, Fluorescence, Spectrophotometry, Expressing

Studied small‐scale metal AM techniques. Techniques and printed metals tested in this study, including literature values and measured data for the mechanical performance of the printed materials: E : Young's modulus, H : hardness, σ y : yield stress, σ 0.07 : flow stress at 7% strain. For inks, as‐deposited (ad.) and thermally annealed (ann.) metals are discriminated. References in the first column refer to historically important publications and notable review articles. Consult Table S1, Supporting Information, for average values of the mechanical properties of all tested samples including standard deviations. *Note: Pt nanoparticles embedded in a carbonaceous matrix

Journal: Advanced Functional Materials

Article Title: Metals by Micro‐Scale Additive Manufacturing: Comparison of Microstructure and Mechanical Properties

doi: 10.1002/adfm.201910491

Figure Lengend Snippet: Studied small‐scale metal AM techniques. Techniques and printed metals tested in this study, including literature values and measured data for the mechanical performance of the printed materials: E : Young's modulus, H : hardness, σ y : yield stress, σ 0.07 : flow stress at 7% strain. For inks, as‐deposited (ad.) and thermally annealed (ann.) metals are discriminated. References in the first column refer to historically important publications and notable review articles. Consult Table S1, Supporting Information, for average values of the mechanical properties of all tested samples including standard deviations. *Note: Pt nanoparticles embedded in a carbonaceous matrix

Article Snippet: [ 54 , 56 ] All structures were printed with FluidFM Nanopipette probes (300 nm opening, Cytosurge AG) mounted on either a FluidFM BOT (Cytosurge AG and Exaddon AG) in the case of pads, or on a FluidFM ADD‐ON (Cytosurge AG) for classical AFM systems (Nanowizard I, JPK) in the case of pillars.

Techniques:

Small‐scale metal AM methods included in this study and pillars printed by these techniques. Small‐sale AM methods are grouped into transfer and synthesis methods, based on their principle of metal deposition. Subgroups include: Transfer of colloids, transfer of melts, electrochemical synthesis and synthesis via electron/ion‐induced CVD. The SE micrographs show representative pillars printed with each of the techniques tested in this study. As‐printed and annealed pillars are shown if thermal annealing was performed (not the same samples). Samples for DIW and LIFT (ink) are printed from Ag inks, and samples from EHDP and LAEPD from suspensions of Au nanoparticles. The LIFT (melt) pillar is Cu (for Au, see Figure S1, Supporting Information), as are the structures for MCED, the FluidFM and EHD‐RP. FIBID and (cryo‐)FEBID pillars were deposited from Methylcyclopentadienyl platinum (IV) trimethyl (MeCpPt(Me)3). *: Pt nanoparticles embedded in a carbonaceous matrix. Tilt angle of all micrographs: 55°.

Journal: Advanced Functional Materials

Article Title: Metals by Micro‐Scale Additive Manufacturing: Comparison of Microstructure and Mechanical Properties

doi: 10.1002/adfm.201910491

Figure Lengend Snippet: Small‐scale metal AM methods included in this study and pillars printed by these techniques. Small‐sale AM methods are grouped into transfer and synthesis methods, based on their principle of metal deposition. Subgroups include: Transfer of colloids, transfer of melts, electrochemical synthesis and synthesis via electron/ion‐induced CVD. The SE micrographs show representative pillars printed with each of the techniques tested in this study. As‐printed and annealed pillars are shown if thermal annealing was performed (not the same samples). Samples for DIW and LIFT (ink) are printed from Ag inks, and samples from EHDP and LAEPD from suspensions of Au nanoparticles. The LIFT (melt) pillar is Cu (for Au, see Figure S1, Supporting Information), as are the structures for MCED, the FluidFM and EHD‐RP. FIBID and (cryo‐)FEBID pillars were deposited from Methylcyclopentadienyl platinum (IV) trimethyl (MeCpPt(Me)3). *: Pt nanoparticles embedded in a carbonaceous matrix. Tilt angle of all micrographs: 55°.

Article Snippet: [ 54 , 56 ] All structures were printed with FluidFM Nanopipette probes (300 nm opening, Cytosurge AG) mounted on either a FluidFM BOT (Cytosurge AG and Exaddon AG) in the case of pads, or on a FluidFM ADD‐ON (Cytosurge AG) for classical AFM systems (Nanowizard I, JPK) in the case of pillars.

Techniques:

Printed pads. SE micrographs of representative pads printed with each of the techniques. If thermal annealing was performed, samples of as‐printed and annealed pads are shown. Metals: DIW, LIFT (ink): Ag; EHDP, LAEPD: Au. LIFT (melt), MCED, FluidFM, EHD‐RP: Cu. FIBID, (cryo‐)FEBID: MeCpPt(Me)3. For Au deposited by LIFT (melt), see Figure S1, Supporting Information. *: Pt nanoparticles embedded in a carbonaceous matrix. Tilt angle: 45°.

Journal: Advanced Functional Materials

Article Title: Metals by Micro‐Scale Additive Manufacturing: Comparison of Microstructure and Mechanical Properties

doi: 10.1002/adfm.201910491

Figure Lengend Snippet: Printed pads. SE micrographs of representative pads printed with each of the techniques. If thermal annealing was performed, samples of as‐printed and annealed pads are shown. Metals: DIW, LIFT (ink): Ag; EHDP, LAEPD: Au. LIFT (melt), MCED, FluidFM, EHD‐RP: Cu. FIBID, (cryo‐)FEBID: MeCpPt(Me)3. For Au deposited by LIFT (melt), see Figure S1, Supporting Information. *: Pt nanoparticles embedded in a carbonaceous matrix. Tilt angle: 45°.

Article Snippet: [ 54 , 56 ] All structures were printed with FluidFM Nanopipette probes (300 nm opening, Cytosurge AG) mounted on either a FluidFM BOT (Cytosurge AG and Exaddon AG) in the case of pads, or on a FluidFM ADD‐ON (Cytosurge AG) for classical AFM systems (Nanowizard I, JPK) in the case of pillars.

Techniques:

Mechanical testing. Nanoindentation and microcompression data of samples printed by three exemplary techniques: DIW (s.t.) representing transfer techniques, FluidFM for electrochemical techniques, and FIBID for electron/ion‐induced CVD. a) Representative pads before (left) and after (right) nanoindentation. The indents are highlighted in red. Tilt angle: 45°. b) Single indentation curves (black) and average Young's modulus E (red) and hardness H (blue) as a function of indentation depth. The solid line is the mean value derived from all measured indents, the shaded area the standard deviation. Elastic and plastic properties are reported from the highlighted depth range. c) Pillars before (left) and after (right) microcompression. Tilt angle: 55°. d) Three representative stress‐strain curves measured for each technique. One curve is highlighted for clarity. *: Pt nanoparticles embedded in a carbonaceous matrix.

Journal: Advanced Functional Materials

Article Title: Metals by Micro‐Scale Additive Manufacturing: Comparison of Microstructure and Mechanical Properties

doi: 10.1002/adfm.201910491

Figure Lengend Snippet: Mechanical testing. Nanoindentation and microcompression data of samples printed by three exemplary techniques: DIW (s.t.) representing transfer techniques, FluidFM for electrochemical techniques, and FIBID for electron/ion‐induced CVD. a) Representative pads before (left) and after (right) nanoindentation. The indents are highlighted in red. Tilt angle: 45°. b) Single indentation curves (black) and average Young's modulus E (red) and hardness H (blue) as a function of indentation depth. The solid line is the mean value derived from all measured indents, the shaded area the standard deviation. Elastic and plastic properties are reported from the highlighted depth range. c) Pillars before (left) and after (right) microcompression. Tilt angle: 55°. d) Three representative stress‐strain curves measured for each technique. One curve is highlighted for clarity. *: Pt nanoparticles embedded in a carbonaceous matrix.

Article Snippet: [ 54 , 56 ] All structures were printed with FluidFM Nanopipette probes (300 nm opening, Cytosurge AG) mounted on either a FluidFM BOT (Cytosurge AG and Exaddon AG) in the case of pads, or on a FluidFM ADD‐ON (Cytosurge AG) for classical AFM systems (Nanowizard I, JPK) in the case of pillars.

Techniques: Derivative Assay, Standard Deviation

Young's modulus E, hardness H and flow stress σ0.07 of printed metals. Element symbols indicate the printed metals. a) E measured by nanoindentation (circles) and microcompression (triangles) for as‐deposited (black) and annealed (red) samples of all techniques. Error bars are one measured standard deviation. Literature data are open symbols. Element labels of FEBID data points refer to literature data. b) H (circles) and σ0.07 (triangles). Hardness data is divided by a constraint factor of 2.8 for a direct comparison with the flow stress. Literature data: open symbols. Note that these graphs intend to summarize the measured data and should not be perceived as a quantitative ranking of the absolute capabilities of the techniques, as future materials optimization may improve the microstructure of the printed materials. c, d) Measured data normalized by literature data for thin films deposited by traditional microfabrication methods (Table S3, Supporting Information). Note that the Young's modulus of thin films E PVD is consistent in literature. Hence, the normalized data for E is representative. In contrast, literature values for H PVD are subjected to considerable variations. The normalized H data should be treated with corresponding care, although we tried to select a value that is most representative of the available literature. References for literature data: EHDP,[ 42 ] LAEPD,[ 43 ] LIFT (ink),[ 47 , 78 , 79 ] MCED,[ 26 , 51 ] FluidFM,[ 54 ] EHD‐RP,[ 57 ] FEBID.[ 22 , 59 , 60 , 61 , 62 ] *: Pt nanoparticles embedded in a carbonaceous matrix.

Journal: Advanced Functional Materials

Article Title: Metals by Micro‐Scale Additive Manufacturing: Comparison of Microstructure and Mechanical Properties

doi: 10.1002/adfm.201910491

Figure Lengend Snippet: Young's modulus E, hardness H and flow stress σ0.07 of printed metals. Element symbols indicate the printed metals. a) E measured by nanoindentation (circles) and microcompression (triangles) for as‐deposited (black) and annealed (red) samples of all techniques. Error bars are one measured standard deviation. Literature data are open symbols. Element labels of FEBID data points refer to literature data. b) H (circles) and σ0.07 (triangles). Hardness data is divided by a constraint factor of 2.8 for a direct comparison with the flow stress. Literature data: open symbols. Note that these graphs intend to summarize the measured data and should not be perceived as a quantitative ranking of the absolute capabilities of the techniques, as future materials optimization may improve the microstructure of the printed materials. c, d) Measured data normalized by literature data for thin films deposited by traditional microfabrication methods (Table S3, Supporting Information). Note that the Young's modulus of thin films E PVD is consistent in literature. Hence, the normalized data for E is representative. In contrast, literature values for H PVD are subjected to considerable variations. The normalized H data should be treated with corresponding care, although we tried to select a value that is most representative of the available literature. References for literature data: EHDP,[ 42 ] LAEPD,[ 43 ] LIFT (ink),[ 47 , 78 , 79 ] MCED,[ 26 , 51 ] FluidFM,[ 54 ] EHD‐RP,[ 57 ] FEBID.[ 22 , 59 , 60 , 61 , 62 ] *: Pt nanoparticles embedded in a carbonaceous matrix.

Article Snippet: [ 54 , 56 ] All structures were printed with FluidFM Nanopipette probes (300 nm opening, Cytosurge AG) mounted on either a FluidFM BOT (Cytosurge AG and Exaddon AG) in the case of pads, or on a FluidFM ADD‐ON (Cytosurge AG) for classical AFM systems (Nanowizard I, JPK) in the case of pillars.

Techniques: Standard Deviation

Summary of SNPs available per source at each stage of development of the +9K add-on for the cherry 6K SNP array.

Journal: Scientific Reports

Article Title: The cherry 6+9K SNP array: a cost-effective improvement to the cherry 6K SNP array for genetic studies

doi: 10.1038/s41598-020-64438-x

Figure Lengend Snippet: Summary of SNPs available per source at each stage of development of the +9K add-on for the cherry 6K SNP array.

Article Snippet: DNA samples were run on the cherry 6K SNP array with +9K add-on (cherry 6+9K SNP array) with an iSCAN at the Research Technology Support Facility of Michigan State University (East Lansing, MI, USA), following the manufacturer’s protocol (Illumina Inc.).

Techniques:

Evaluation of +9K add-on SNP performance in sweet cherry and sour cherry. SNPs were classified as either reliable polymorphic, monomorphic, or failed for sweet cherry. For sour cherry, unresolved polymorphic was added as a fourth category. Evaluation of SNP performance is reported for each source and subsource. For each source, the proportion of SNPs within each performance category is given within brackets.

Journal: Scientific Reports

Article Title: The cherry 6+9K SNP array: a cost-effective improvement to the cherry 6K SNP array for genetic studies

doi: 10.1038/s41598-020-64438-x

Figure Lengend Snippet: Evaluation of +9K add-on SNP performance in sweet cherry and sour cherry. SNPs were classified as either reliable polymorphic, monomorphic, or failed for sweet cherry. For sour cherry, unresolved polymorphic was added as a fourth category. Evaluation of SNP performance is reported for each source and subsource. For each source, the proportion of SNPs within each performance category is given within brackets.

Article Snippet: DNA samples were run on the cherry 6K SNP array with +9K add-on (cherry 6+9K SNP array) with an iSCAN at the Research Technology Support Facility of Michigan State University (East Lansing, MI, USA), following the manufacturer’s protocol (Illumina Inc.).

Techniques: