Application of General-Purpose Computing on Graphics Processing Units for Acceleration of Basic Linear Algebra Operations and Principal Components Analysis Method

2014 ◽  
pp. 519-527 ◽  
Author(s):  
Michal Majchrowicz ◽  
Pawel Kapusta ◽  
Lukasz Was ◽  
Slawomir Wiak
Keyword(s):  
Principal Components Analysis ◽  
Linear Algebra ◽  
Principal Components ◽  
Graphics Processing Units ◽  
General Purpose ◽  
Analysis Method ◽  
Components Analysis ◽  
Graphics Processing

Evaluation on Restoration of Ecological City of Ha’erbin

2010 ◽  
Vol 113-116 ◽  
pp. 938-942
Author(s):  
Mu Hua Cui
Keyword(s):  
Quantitative Analysis ◽  
Qualitative Analysis ◽  
Principal Components Analysis ◽  
Principal Components ◽  
Index System ◽  
Analysis Method ◽  
Components Analysis ◽  
Made In

This article is designed to carry out design of index system for evaluation of ecological city which is applicable to features of city of Ha’erbin on basis of actual conditions of Ha’erbin in principle of combination of qualitative analysis and quantitative analysis and to conduct evaluation on effect of restoration of ecological city of Ha’erbin with principal components analysis method. Results of evaluation show that some accomplishment has been made in terms of construction of ecological city of Ha’erbin and sub-system of environment, economy and society of Ha’erbin has been greatly improved since 2002.

Principal Components Analysis of the General Purpose Abbreviated Battery of the Stanford-Binet, Fourth Edition, for Young Children

Assessment ◽  
1994 ◽  
Vol 1 (2) ◽  
pp. 173-178 ◽  
Author(s):  
Cynthia A. Riccio ◽  
Leslie Oliver Platt ◽  
Randy W. Kamphaus ◽  
Margaret K. Greer ◽  
Nick Elksnin
Keyword(s):  
Young Children ◽  
Principal Components Analysis ◽  
Principal Components ◽  
General Purpose ◽  
Fourth Edition ◽  
Components Analysis

Kernel principal components based cascade forest towards disease identification with human microbiota

2020 ◽  
Author(s):  
Jiayu Zhou ◽  
Xuwen Wang ◽  
Yanqing Ye ◽  
Jiang Jiang
Keyword(s):  
Principal Components Analysis ◽  
Principal Components ◽  
Human Disease ◽  
Analysis Method ◽  
Human Microbiota ◽  
Disease States ◽  
Disease Identification ◽  
Deep Forest ◽  
Components Analysis ◽  
Kernel Principal Components Analysis

Abstract Numerous pieces of clinical evidence have shown that many phenotypic traits of human disease are related to their gut microbiome. Through supervised classification, it is feasible to determine the human disease states by revealing the intestinal microbiota compositional information. However, the abundance matrix of microbiome data is so sparse, an interpretable deep model is crucial to further represent and mine the data for expansion, such as the deep forest. What's more, overfitting can still exist in the original deep forest model when dealing with such “large p, small n” biology data. Feature reduction is considered to improve the ensemble forest model especially towards the disease identification in the human microbiota. In this work, we propose the kernel principal components based cascade forest method, so-called KPCCF, to classify the disease states of patients by using taxonomic profiles of the microbiome at the family level. In detail, the kernel principal components analysis method is first used to reduce the original dimension of human microbiota datasets. Besides, the processed data is fed into the cascade forest to preliminarily discriminate the disease state of the samples. Thus, the proposed KPCCF algorithm can represent the small-scale and high-dimension human microbiota datasets with the sparse feature matrix. Systematic comparison experiments demonstrate that our method consistently outperforms the state-of-the-art methods with the comparative study on 4 datasets. Additionally, compared to other dimensionality reduction methods, the kernel principal components analysis method is more suitable for microbiota datasets.

uBlasCL: Architecture Agnostic Massively Parallel Linear Algebra System

2011 ◽  
Author(s):  
Athanasios Iliopoulos ◽  
John G. Michopoulos
Keyword(s):  
Linear Algebra ◽  
Graphics Processing Units ◽  
Processing System ◽  
Performance Testing ◽  
General Purpose ◽  
Massively Parallel ◽  
Domain Specific Languages ◽  
Central Processing ◽  
Domain Specific ◽  
Graphics Processing

The need for more efficient, more abstract and easier to use parallel programming interfaces has been recently intensified with the introduction and remarkable evolution of technologies such as the General Purpose Graphics Processing Units (GPG-PUs) and multi-core Central Processing Units (CPUs). In the present paper we present the introduction of the uBlasCL system as a Domain Specific Embedded Language within C++ that implements a Basic Linear Algebra Interface for OpenCL. The system is architecture agnostic, in the sense that it can be programmed independently of the targeted architecture, is massively parallel, and achieves efficiency that tracks well the increase in hardware performance advances. Our effort is based on the utilization of template metaprogramming and domain specific languages fundamentals, for developing a system that has the syntactic flexibility of a symbolic term processing system for expressing mathematics, and the semantic and executional power to exploit the parallelism offered by the hardware in an automated, transparent to the user, and efficiently mapped on the hardware manner. We also describe its relation to C++, template programming, domain specific languages and OpenCL. In the effort to develop uBlasCL we also developed a middleware library named CL++, as a convenient C++ interface to OpenCL. After the architectural and the implementation descriptions of the system, we present performance testing results demonstrating its potential power.

Kernel principal components based cascade forest towards disease identification with human microbiota

2020 ◽  
Author(s):  
Jiayu Zhou ◽  
Xuwen Wang ◽  
Yanqing Ye ◽  
Jiang Jiang
Keyword(s):  
Principal Components Analysis ◽  
Principal Components ◽  
Human Disease ◽  
Analysis Method ◽  
Human Microbiota ◽  
Disease States ◽  
Disease Identification ◽  
Deep Forest ◽  
Components Analysis ◽  
Kernel Principal Components Analysis

Abstract Numerous pieces of clinical evidence have shown that many phenotypic traits of human disease are related to their gut microbiome. Through supervised classification, it is feasible to determine the human disease states by revealing the intestinal microbiota compositional information. However, the abundance matrix of microbiome data is so sparse, an interpretable deep model is crucial to further represent and mine the data for expansion, such as the deep forest. What's more, overfitting can still exist in the original deep forest model when dealing with such “large p, small n” biology data. Feature reduction is considered to improve the ensemble forest model especially towards the disease identification in the human microbiota. In this work, we propose the kernel principal components based cascade forest method, so-called KPCCF, to classify the disease states of patients by using taxonomic profiles of the microbiome at the family level. In detail, the kernel principal components analysis method is first used to reduce the original dimension of human microbiota datasets. Besides, the processed data is fed into the cascade forest to preliminarily discriminate the disease state of the samples. Thus, the proposed KPCCF algorithm can represent the small-scale and high-dimension human microbiota datasets with the sparse feature matrix. Systematic comparison experiments demonstrate that our method consistently outperforms the state-of-the-art methods with the comparative study on 4 datasets. Additionally, compared to other dimensionality reduction methods, kernel principal components analysis method is more suitable for microbiota datasets.

Research on the Method of Wool Knitted Fabric Style Evaluation

2012 ◽  
Vol 627 ◽  
pp. 338-342
Author(s):  
Xi Gu ◽  
Ling Cheng ◽  
Jin Qiu Zhang
Keyword(s):  
Principal Components Analysis ◽  
Principal Components ◽  
Testing System ◽  
Knitted Fabric ◽  
Analysis Method ◽  
Components Analysis

This study determined the method which can be used to evaluate the wool knitted fabric style basing on KES system. 20 wool knitted fabric samples are tested by the KES fabric style testing system. The sixteen kinds of mechanical indexes of every fabric samples are acquired and their influences on the fabric style of wool knitted fabric were investigated. Ten indexes which have remarkable influences on the fabric style of wool knitted fabric were analyzed by using the principal components analysis method. The result showed that there are four principal components, which are defined as smoothness-limpness, softness, elasticity and fullness, can be used to characterize the wool knitted fabric style exactly.

scholarly journals RANCANG BANGUN SISTEM PENGENALAN WAJAH DENGAN METODE PRINCIPAL COMPONENT ANALYSIS

2016 ◽  
Vol 1 (2) ◽  
pp. 59-75
Author(s):  
Salamun Salamun ◽  
Firman Wazir
Keyword(s):  
Principal Component Analysis ◽  
Face Recognition ◽  
Principal Components Analysis ◽  
Principal Components ◽  
Principal Component ◽  
Physiological Measures ◽  
Test Results ◽  
Analysis Method ◽  
The Face ◽  
Components Analysis

The face is one of the easiest physiological measures and is often used to distinguish individual identities from one another. This facial recognition process uses raw information from pixel images generated through a camera which is then represented in the Principal Components Analysis method. The Principal Components Analysis method works by calculating the average flatvector pixel of images that have been stored in a database, from the average flatvector will get the value of each image eigenface and then the nearest eigenface value of the image will be found and then the nearest eigenface value of the image will be found the image of the face you want to recognize. The test results showed an overall success rate of face recognition of 82.27% with face data of 130 images.

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