ライフサイエンスコーパス: graphic

1 wn), i.e., coupled motion #2 in the abstract graphic).

2 up), i.e., coupled motion #1 in the abstract graphic).

3 were conceptualized using a directed acyclic graphic.

4 Curve for making decision curves and related graphics.

5 nd may promote widespread use of interactive graphics.

6 raries for web-based visualization using SVG graphics.

7 and their interactions in three-dimensional graphics.

8 stream analysis of results and visualization graphics.

9 oral honey types, particularly when using 3D graphics.

10 ips and allows export of publication quality graphics.

11 ially understanding airway pressure and flow graphics.

12 P may be used to produce publication quality graphics.

13 ineable, with many new selection filters and graphics.

14 e browser as text, tables and interactive 3D graphics.

15 nment was used for statistical computing and graphics.

16 The results are displayed in interactive graphics.

17 nced reference lists, and new protein domain graphics.

18 data, as well as create publication quality graphics.

19 ers of interactivity that are behind bigPint graphics.

20 Graphic Abstract: An graphic abstract is available for this article.

21 Graphic Abstract: A graphic abstract is available for this article.

22 Graphic Abstract: An online graphic abstract is available for this article.

23 Graphic Abstract: A graphic abstract is available for th

24 Graphic Abstract: An graphic abstract is available for t

25 Graphic Abstract: An online graphic abstract is availabl

26 amework, which aims to facilitate the use of graphics accelerators for computational models of large-

27 th the choice of uniform or analytic heatmap graphics according to the local geometry.

28 Custom Node Graphics allow an image to be projected onto a node, inc

29 In graphic analyses, participants in the highest quintile (

30 1- and 2-tissue compartment models and Logan graphic analysis (LGA) were evaluated for estimating reg

31 ages were generated using plasma input Logan graphic analysis and 2 basis functions-based a 2-tissue-

32 ages were generated using plasma input Logan graphic analysis and 2 basis functions-based methods: a

33 Both Logan graphic analysis and spectral analysis yielded V(T) that

34 Graphic analysis of native DE CT images was used to iden

35 and 2-tissue-compartment modeling and linear graphic analysis provided similar total volume-of-distri

36 e with NLR-derived V(T) were found for Logan graphic analysis with a start time of 30 min after injec

37 c images were generated by use of both Logan graphic analysis with various linear regression start ti

38 t) for (18)F-UCB-H was calculated with Logan graphic analysis, and the effect of LEV pretreatment on

39 istribution volumes (VT) obtained with Logan graphic analysis, BFM, and SA all correlated well with t

40 istribution volumes (VT) obtained with Logan graphic analysis, BFM, and SA all correlated well with t

41 Graphic analysis, in which clusters of equal composition

42 re analysed using descriptive statistics and graphic analysis.

43 (The table of contents graphic and abstract graphic are adapted from ref 27.).

44 Intuitive graphic and analytical tools that can facilitate the stu

45 Users can navigate the graphic and the represented papers by stem cell type, or

46 corporated in a draft brochure that included graphics and a glossary of terms.

47 Results were analyzed by using statistical graphics and analysis of variance.

48 duces two powerful new features--Custom Node Graphics and Attribute Equations--which can be used join

49 cans using symbolic representation, improved graphics and fonts for web displays, improvements in the

50 Here, we introduce u-shape3D, a computer graphics and machine-learning pipeline to probe molecula

51 lizations or can be exported as high-quality graphics and numerical tables which can be imported into

52 and link to the ALA spatial portal, improve graphics and provide the novel ability to analyze enviro

53 Also, it uses different R packages for graphics and R-markdown for generating progress reports.

54 d summaries are reported within a variety of graphics and reports, providing a simple way to do data

55 t that can be imported in the majority of 3D graphics and software packages.

56 application shows in a dashboard a series of graphics and tables designed to help researchers formula

57 The ability to display graphics and texts on a transparent screen can enable ma

58 sers to save the structures as an SVG vector graphic, and allows users to export the structure as con

59 Using algebra, graphics, and examples, we show that positive interactio

60 ability, readability, message length, use of graphics, and verbal discussion.

61 brain systems interact to predict effects of graphic anti-smoking messages for individual smokers (bo

62 ted brain responses to predict the impact of graphic anti-smoking stimuli within a small group of smo

63 The Logan graphic approach was not able to estimate the higher con

64 ence tissue compartment model, and the Logan graphic approach.

65 s controlled at the 0.05 level by means of a graphic approach.

66 (The table of contents graphic and abstract graphic are adapted from ref 27.).

67 Chirality transfers (as shown in the TOC graphic) are characterized by a stereospecific planar-to

68 convenience, without formal mathematical and graphic assessment to validate its suitability for these

69 re environment for statistical computing and graphics available for most platforms.

70 hat simulate rich physics in video games and graphics, but that uses approximate, probabilistic simul

71 We believe that the principles of Trellis graphics can be adapted to provide useful visualizations

72 mparable computational improvement without a graphics card would require a large compute-cluster, an

73 type, and we expect the speed to increase as graphics cards continue to improve.

74 f state-of-the-art multi-core processors and graphics cards, and is available as open-source software

75 llaboratively developed CHARMM INterface and Graphics (CHARMMing) web user interface.

76 derstood, although the effectiveness of some graphics clearly depends on the relative numeracy of an

77 alable computational tools from the computer graphics community, we demonstrate 3D reconstruction of

78 MPM0-III calibrates well by graphic comparison of actual vs. expected mortality, ove

79 kZ that can be compiled into scalable vector graphics described in a model.

80 Using fMRI, we found that emotionally graphic descriptions of harmful acts amplify punishment

81 ppressed amygdala activity and the effect of graphic descriptions on punishment was abolished.

82 These will be coupled to graphic design interfaces and simulation packages to aid

83 provides advanced features including modular graphic design, advanced web interactivity and animation

84 s and their regulators have been mapped onto graphic diagrams that are used to visualize the regulato

85 eal and bacterial-specific tracks with a few graphic display enhancements.

86 read, all of which are entirely dependent on graphic display for their elucidation, enable conclusion

87 Graphic display of observed against predicted outcomes a

88 Capnography, the graphic display of the exhaled and inhaled carbon dioxid

89 MaGnET provides innovative integrated graphic displays for different datasets, including genom

90 bined into composite wide-angle images using graphics-editing software.

91 th native SVG rendering support or in vector graphics editors.

92 The electroencephalo graphic (EEG) responses showed distinct peaks associated

93 characteristics such as typeface, color, and graphic element choices are still missing at the city sc

94 or 'receptor' are available as a library of graphic elements.

95 Genome browser styled graphics embedded in these reports help visualize the ge

96 In computer graphics, raster graphics encodes images on a single-pixel level, conferr

97 expense of large file sizes, whereas vector graphics encrypts shape information into vectors that al

98 ProMOL is a plugin for the PyMOL molecular graphics environment that can be used to create active s

99 The current work provided a graphic example of the relationship between sequence, st

100 ssor-tRNA alleles, strains and plasmids, and graphic examples of its diverse uses.

101 point-and-click modification of almost every graphic feature.

102 Results are available in text or graphic file formats and additionally can be output to r

103 e mouse, rat, and human brain flatmap vector graphics files (Adobe Reader/Acrobat viewable and Adobe

104 ve, highly customizable, publication-quality graphics focused on annotating each gene fusion at the t

105 ing highly customizable, publication-quality graphics focused on cohort level genome analyses.

106 ion and LD information in a single appealing graphic for genetic association studies.

107 icular existing gene feature formats meaning graphics for any existing datasets can easily be created

108 SBML2TikZ supports automatic generation of graphics for biochemical models in the popular TeX types

109 compound classes, and can export raw data or graphics for off-line use.

110 onstrates how dynamic alternatives to static graphics for small sample size studies allow for additio

111 stered heatmaps are the most frequently used graphics for visualization of molecular profiling data i

112 , summarized statistically, and displayed in graphic form.

113 Networks can be saved as a Scalable Vector Graphics format.

114 d tool enables authors to create interactive graphics from data obtained with repeated independent ex

115 Concluding the work with analysis of graphics from the Blast2go program.

116 A variety of graphics functions are implemented to easily plot numeri

117 A bottom-up graphic Gaussian model (GGM) algorithm was developed for

118 A concise text html-linked to interactive graphics guides the reader through the main features of

119 es original fluorescence intensity values on graphics hardware, a crucial feature that allows graphic

120 Ceiba exploits recent improvements in graphics hardware, OpenGL toolkits and many standard hig

121 , and we provide a fast implementation using graphics hardware.

122 Additionally, in-line graphics have been developed for specific analysis types

123 These graphics have detected normalization issues, differentia

124 Interactive graphics have the potential to transform scientific publ

125 ved as computer-readable XML format (VisML), graphic images or high-resolution Scalable Vector Graphi

126 gs and scenes that can be rendered as raster-graphics images, allowing for easy generation of publica

127 terative contour smoothing and generation of graphics in a easy to use graphical user interface.

128 terative contour smoothing and generation of graphics in an easy to use graphical user interface with

129 role of principal components and statistical graphics in the generation of pattern claims and hypothe

130 s then allow for live customisation of these graphics, including on-the-fly selection of visualisatio

131 g expertise to create customized interactive graphics, including univariate scatterplots, box plots,

132 s between such bundles, including convenient graphic indifference curves.

133 pySolo provides a user-friendly graphic interface and it has been developed with the spe

134 provides several user-friendly, interactive graphic interfaces for data exploration, including tools

135 ession analyses by incorporating statistical graphics into their usual analysis pipelines, 2) develop

136 script of TeX macro commands for the vector graphics languages PGF/TikZ that can be compiled into sc

137 Taking advantage of modern graphic libraries, tcsBU also improves the speed at whic

138 tion utilizing Standard Widget Toolkit/Swing graphics libraries and a SQLite database for performing

139 JavaScript; Web technology: Scalable Vector Graphics; Libraries: D3.js.

140 integrated into other R data processing and graphic manipulation pipelines for presenting large-scal

141 Additionally, two graphic methods were proposed to map the direction of li

142 When these parameters are used in a graphic model of revertant colony development, they demo

143 as realistic 3D animations using a computer-graphics model.

144 onserved residues were analyzed by molecular graphics modeling to demonstrate their intramolecular in

145 A population of 100 graphics models of the human 5-HT6 serotonin receptor wa

146 ttle (KD) concluded that the "simplicity and graphic nature of hydrophobicity scales make them very u

147 ablish training samples based on clustering, graphic network analysis, and genetic mating scheme.

148 s software available to generate linkage map graphics, none are freely available, produce publication

149 The tool generates a graphic of the genomic neighborhood surrounding the sele

150 of DSSR and Jmol/JSmol brings the molecular graphics of 3D RNA structures to a similar level as that

151 Kinetic parameters were determined from graphics of linear Michaelis-Menten equation, and it was

152 the ability to edit individual elements of a graphic on the whole object level independent of the who

153 ed input files to display pathways in vector graphics on any web-page providing flexible layout optio

154 The graphic output shows the profile of sequence conservatio

155 on, and is part of the widely used molecular graphics package UCSF CHIMERA (University of California,

156 of the protein structure, and in a molecular graphics package, integrated for interactive viewing.

157 excitations, a focused electron beam with a graphic pattern generator to "print" skyrmions is used,

158 Graphic: Pestroy, a DDT-laced coating marketed in 1946 b

159 The results provide a graphic picture of the structural transformations underg

160 Using a unique computer graphics platform that combines generative grammars with

161 We used graphic plots and linear mixed models to examine the rel

162 stance from instruments, data processing, or graphic plotting.

163 ts to EcoGene in the past decade include (i) graphic presentations of genome map features; (ii) abili

164 10th, 25th, 75th, and 90th percentiles, with graphic presentations using smoothed curves.

165 ariational eigenvalue solver and distributed Graphic Processing Unit (GPU) parallel computations.

166 ftware running on an NVIDIA Volta 100 (V100) Graphic Processing Unit (GPU) to 46.71 seconds for our l

167 es at their disposal, and recent advances in graphics processing unit (GPU) computing have added a pr

168 aster than qcprot and 3x faster than current graphics processing unit (GPU) implementations.

169 ice for fast MicroRNA-Seq data analysis in a graphics processing unit (GPU) infrastructure.

170 urden between multiple processor cores and a graphics processing unit (GPU) simultaneously.

171 ents those methods in a parallel manner on a graphics processing unit (GPU) using CUDA platform.

172 Using a general-purpose graphics processing unit (GPU), we have developed GPU-BL

173 multicore architecture of a modern consumer graphics processing unit (GPU), we report a 92x increase

174 arallelism present in modern traditional and graphics processing unit (GPU)-accelerated machines, fro

175 With graphics processing unit (GPU)-based CUDA C/C++ implemen

176 cence lifetimes, Stokes shifts, and extended graphics processing unit (GPU)-based quantum mechanics/m

177 thm for parallel execution on an NVIDIA V100 graphics processing unit (GPU).

178 lculation of ESP and (ii) its mapping onto a graphics processing unit (GPU).

179 Our graphics processing unit based software delivers haploty

180 -dimensional image-based registration with a graphics processing unit enhances processing speed 10- t

181 The Graphics Processing Unit implementation of the algorithm

182 oth in the central processing unit (CPU) and Graphics processing unit processor markets, enabling mas

183 Implementation of these algorithms for the graphics processing unit results in dramatic speedup of

184 tic model: the Bayesian network algorithm, a graphics processing unit version of the Bayesian network

185 rallel computational power of a programmable graphics processing unit with the flexibility of the dyn

186 PU threads and multiple GPU (general-purpose graphics processing unit) devices.

187 the rapid development of massively parallel Graphics Processing Unit, i.e. the GPU computing technol

188 dial fluctuations (SRRF), provided as a fast graphics processing unit-enabled ImageJ plugin.

189 ut losing calculation precision on an NVIDIA graphics processing unit.

190 method, we parallelized the computation on a graphics processing unit.

191 tems in approximately one second on a single graphics processing unit.

192 Graphics processing units (GPUs) are capable of efficien

193 e algorithm is implemented on ATI and nVidia graphics processing units (GPUs) for maximal speed.

194 new software tool STOCHSIMGPU that exploits graphics processing units (GPUs) for parallel stochastic

195 Graphics processing units (GPUs) provide an inexpensive

196 paper is adding a full support for multiple graphics processing units (GPUs) support, which makes it

197 By using graphics processing units (GPUs) the time needed to buil

198 lel computing hardware including inexpensive graphics processing units (GPUs), it has remained infeas

199 r arbitrary molecular evolutionary models on graphics processing units (GPUs), making use of the larg

200 eneral-purpose libraries for computing using graphics processing units (GPUs), such as PyTorch and Te

201 Graphics processing units (GPUs), the hardware responsib

202 Thanks to a very intensive use of graphics processing units (GPUs), we have been able to r

203 ons using consumer or high performance grade graphics processing units (GPUs).

204 t multiple CPU cores but also one or several graphics processing units (GPUs).

205 We developed deoxyribozyme-based graphics processing units able to monitor nucleic acids

206 mpute Unified Device Architecture-compatible graphics processing units and deep learning techniques s

207 to parallel computing architectures, such as graphics processing units by illustrating its utility fo

208 Our novel, efficient algorithm using graphics processing units can accurately characterize bo

209 we demonstrate that parallel computation on graphics processing units can reduce the processing time

210 ning read-outs of molecular states that uses graphics processing units made from molecular circuits.

211 These molecular graphics processing units provide insight for the constr

212 ness the computational power of NVIDIA GPUs (Graphics Processing Units) to greatly reduce processing

213 fits regularized regression across multiple Graphics Processing Units.

214 it is now possible to exploit the power of a graphics-processing unit (GPU) from a browser without an

215 -time data processing being accelerated by a graphics-processing unit.

216 nitude greater than that of state-of-the-art graphics-processing units, and is shown to be scalable t

217 hics hardware, a crucial feature that allows graphics-processing-unit (GPU)-based processing for inte

218 a combination of accelerated calculations on graphics processor units and distributed computing to si

219 e RELION image processing software that uses graphics processors (GPUs) to address the most computati

220 Using two graphics processors simultaneously, a typical 6D docking

221 ased protein docking server to be powered by graphics processors.

222 , the Coulson plot generator (CPG) automates graphic production, with a tab or comma-delineated text

223 It is accompanied by an Excel-based graphics program.

224 Views can be exported to vector graphics programs to generate high-quality figures for p

225 g no longer depends on reproducing the visuo-graphic properties of characters that are indispensable

226 d to read by learning to associate the visuo-graphic properties of Chinese characters with lexical me

227 oach that combines state-of-the-art computer graphics, psychophysics and vision science, cultural psy

228 ly, requirements for constructing a computer graphics quantitative intrahippocampal flatmap, with acc

229 In computer graphics, raster graphics encodes images on a single-pix

230 It serves high-quality protein graphics rendered with UCSF Chimera molecular visualizat

231 rch tools for organism communities, improved graphics rendering, faster performance and re-designed g

232 In this study, the first graphic representation and thickness database of chorior

233 We model these findings in a graphic representation called the cystic probability lan

234 mension to our understanding of the earliest graphic representation in southwestern France, almost al

235 habets as well as an interest in its use for graphic representation of biological sequences.

236 plete lack of visualization tools to provide graphic representation of complex BLAST pair-wise alignm

237 nterface supports diverse search options and graphic representation of fusion gene structure.

238 QGRS-H Predictor features highly interactive graphic representation of the data.

239 les as inputs, and output a result page with graphic representation of the genomic contexts of Acr-Ac

240 ing Cox proportional hazard, and developed a graphic representation of the prevalence and strength of

241 fic terms and provides users with a text and graphic representation of the results.

242 onally reveal what is being seen by means of graphic representation, enabling an otherwise closed 'wi

243 cessability, eighth-grade reading level, and graphics resulted in significantly greater gist and verb

244 In addition, shinyGEO supports customized graphics, sample selection, data export and R code gener

245 Multidimensional chromato-graphic separation and multistage mass spectrometry loca

246 rendering customizable, interactive, vector-graphic sequence logos and embedding them in web applica

247 can be captured and annotated by means of a graphic set of pre-rRNA ratios, a technique we call Rati

248 We emphasize that interactive graphics should be an indispensable component of modern

249 es and microfluidic channels were drawn in a graphic software package and laser printed on a polyeste

250 analyzed in masked fashion by using computer graphic software.

251 atively using post-processing approach using graphic software.

252 T is compatible with commonly used molecular graphics software packages such as UCSF Chimera and VMD.

253 n the MATLAB and R statistical computing and graphics software platforms.

254 By using common graphics software, e.g., CorelDRAW or AutoCAD, the proto

255 alised on a protein using existing molecular graphics software.

256 and many standard high-performance computer graphics strategies, such as texture compression, level

257 d confirmed this in two independent cohorts, GRAPHIC study (p = 9 x 10(-15)) and TwinsUK (p = 8 x 10(

258 developing new web pages, export formats and graphics styles.

259 enerates not only certain useful distinctive graphics such as the plate-well series plot, plate image

260 odes exons by frame and displays a cityscape graphic summarizing exonic sequence at each position.

261 A user-friendly interface generates a graphic summary of coverage that can be directly include

262 allows users to generate high-quality vector graphics (SVG) and integrate it into web pages.

263 Pedigree output in scalable vector graphics (SVG) format can be viewed in browsers with nat

264 Scalable Vector Graphics (SVG) format is a modern and flexible open stan

265 ic, which can be exported in Scalable Vector Graphics (SVG) format.

266 ic images or high-resolution Scalable Vector Graphics (SVG).

267 ecome important features, and furthermore, a graphic that provides the user with a visual guide to th

268 e steps can be operationalized, using simple graphics that articulate how populations are defined, sa

269 ncourage authors to avoid bar graphs and use graphics that show the data distribution; however, they

270 In the abstract graphic, the measured analyte concentration (Am) approac

271 Researchers can apply bigPint graphics to their data by following recommended pipeline

272 p, bar-graph and colored secondary structure graphics; to leverage these data to generate secondary s

273 It has an efficient and interactive graphic tool that provides a Venn diagram view for compa

274 esentations of object shape, uses a computer graphics toolkit and a human hand simulator to map from

275 cture needed to describe the results and the graphic tools necessary to visualize them require a soft

276 gging behind; for example, current molecular graphics tools lack built-in support even for base pairs

277 and integrated with DNA design and molecular graphics tools.

278 radigm shift currently under way in computer graphics towards the use of more realistic global illumi

279 ta processing pipelines through an intuitive Graphic User Interface (GUI).

280 it to support interactive analyses through a graphic user interface as well as customized batch-mode

281 annotated files that are navigated through a graphic user interface dynamically generated by NaviSE.

282 Furthermore, we created a graphic user interface encyclopedia built with the goal

283 on application called GenBoard, an intuitive graphic user interface for data management and bioinform

284 rovides comprehensive analytic functions and graphic user interface for integrating two statistically

285 A user friendly graphic user interface is developed as a Cytoscape plugi

286 computer-aided detection (CAD) scheme with a graphic user interface was developed to conduct tumor se

287 A customized graphic user interface was developed to extract genes dy

288 ParamAP employs a graphic user interface with automatic and user-customiza

289 analysis are provided via a very responsive graphic user interface.

290 Using custom software and graphic user interfaces, images were registered, overlay

291 SurreyFBA includes JyMet, a graphics user interface allowing spreadsheet-based model

292 web pages that include interactive molecular graphics using the freely-available applet, Jmol, for il

293 ructure/sequence alignment via the molecular graphics viewer Cn3D.

294 be indicated and visualized by Java-based 3D graphics viewers and the structural and evolutionary pro

295 d intuitively using HTML format along with a graphic visualization of the prediction.

296 However, graphic visualization of these differences based on a qu

297 mponents are routinely featured in molecular graphics visualizations.

298 plemented policies were clinical guidelines, graphic warnings on tobacco packaging, and NCD risk fact

299 re environment for statistical computing and graphics, we introduce an integrated solution for the an

300 ization of annotations in an interactive web graphic, which can be exported in Scalable Vector Graphi