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4. Trirelaxor Ferroelectric Material with Giant Dielectric Permittivity over a Wide Temperature Range

Author

Ruifeng Yao, Jinghui Gao, Shengtao Li, Zhixin He, Lisheng Zhong, Xiaobing Ren, Jingzhe Xu, Ming Wu, Dong Wang, Yan Wang, and Andong Xiao

Subjects
Permittivity, Tetragonal crystal system, chemistry.chemical_compound, Materials science, chemistry, Condensed matter physics, Barium titanate, General Materials Science, Thermal stability, Dielectric, Atmospheric temperature range, Microstructure, Ferroelectricity
Abstract

Advanced ferroelectrics with a combination of large dielectric response and good temperature stability are crucial for many technologically important electronic devices and electrical storage/power equipment. However, the two key factors usually do not go hand in hand, and achieving high permittivity is normally at the expense of sacrificing temperature stability. This trade-off relation is eased but not fundamentally remedied using relaxor-type materials which are known to have a diffuse permittivity peak at their relaxor transition temperatures. Here, we report an anomalous trirelaxor phenomenon in a barium titanate system and show that it can lead to a giant dielectric permittivity (er ≈ 18 000) over a wide temperature range (Tspan ≈ 34K), which successfully overcomes a long-standing permittivity-stability trade-off. Moreover, the enhancement in the dielectric properties also yields a desired temperature-insensitive electrocaloric performance for the trirelaxor ferroelectrics. Microstructure characterization and phase-field simulations reveal a mixture of tetragonal, orthorhombic, and rhombohedral polar nanoregions over a broad temperature window in trirelaxor ferroelectrics, which is responsible for this combination of giant dielectric permittivity and good temperature stability. This finding provides an effective approach in designing advanced ferroelectrics with high performance and thermal stability.

Published
2021
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6. The Characterization of Complex Polarization State in Ferroelectric Materials using Scanning Convergent Beam Electron Diffraction

Author

Ming Wu, Yan Wang, Wenbo Yan, Ruifeng Yao, Jingzhe Xu, Lisheng Zhong, Zhixin He, and Jinzhui Gao

Subjects
Materials science, Condensed matter physics, 02 engineering and technology, Dielectric, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Ferroelectricity, 0104 chemical sciences, Characterization (materials science), Crystal, Condensed Matter::Materials Science, Tetragonal crystal system, Electron diffraction, 0210 nano-technology, Polarization (electrochemistry), Anisotropy
Abstract

Ferroelectric materials in various applications can be ascribed to its functional properties, which originates from the spontaneous polarization forming the ferroelectric domain configuration. Hence, it is of great importance to characterize the complex polarization state to interpret the associated phenomena in ferroelectric materials. In particular, recent progress on highperformance materials with exotic nanoscale polarization heterogeneity requires advanced technology on probing local structure for ferroelectrics. In this work, we employed a high-throughput scanning convergent beam electron diffraction (SCBED) method to investigate the local structure of (Ba 0.78 Ca 0.22 )(Ti 0.88 Sn 0.12 )O 3 ceramics by using a transmission electron microscope. The obtained patterns were further analyzed by the Principal Components Analysis (PCA) and Bayesian machine-learning algorithm to recognize polar axes and their spatial distribution. The results show the coexistence of cubic, tetragonal, orthorhombic and rhombohedral crystal symmetries among nanodomains, which suggest a reduced polarization anisotropy. Our work may provide an effective approach to characterize the complex polarization state in ferroelectric materials, which enables the establishment of structure-property relationship for high-property functional dielectric materials.

Published
2020
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7. Donor–acceptor interaction-driven self-assembly of amphiphilic rod–coil molecules into supramolecular nanoassemblies

Author

Tie Chen, Shengsheng Yu, Long Yi Jin, Yuntian Yang, and Jingzhe Xu

Subjects
chemistry.chemical_classification, Materials science, Supramolecular chemistry, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Micelle, Acceptor, 0104 chemical sciences, Supramolecular polymers, Crystallography, chemistry, Amphiphile, Molecule, General Materials Science, Lamellar structure, Self-assembly, 0210 nano-technology
Abstract

Rigid-flexible amphiphilic molecules consisting of an aromatic segment based on pyrene and biphenyl units and hydrophilic polyethylene oxide chains self-assemble into lamellar, hexagonal columnar, and two-dimensional columnar nanostructures in the bulk state. In aqueous solution, these molecules self-assemble into nanofibers, spherical micelles, and multilayer nanotubes, depending on the chain or rod length of the molecules. Notably, ordered nanostructures of supramolecular polymers, such as single-layer curving fragments, nanofibers, and nanosheets, were constructed through charge-transfer interactions between the nanoobjects and an electron-acceptor molecule, 2,4,5,7-tetranitrofluorenone. These experimental results reveal that diverse supramolecular morphologies can be controlled by tuning rod-coil molecular interactions or charge-transfer interactions between the donor and acceptor molecules.

Published
2017
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8. Reading Local Structure for Ferroelectric Ceramic by Convergent Beam Electron Diffraction and Artificial Intelligence Method

Author

Jinghui Gao, Jingzhe Xu, Tongxin Zhao, Zhixin He, Y. Wang, and Wenbo Yan

Subjects
010302 applied physics, Similarity (geometry), Computer science, business.industry, Texture (cosmology), 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Symmetry (physics), Hough transform, law.invention, Visualization, law, 0103 physical sciences, Principal component analysis, Canny edge detector, Artificial intelligence, 0210 nano-technology, Mirror symmetry, business
Abstract

Crystal structures are always considered as origin of properties of dielectric materials, which poses importance for microscopic observation, especially for materials with peculiar local structures. Convergent beam electron diffraction (CBED) is a widely used informative method of reading crystal structure. However, identifying CBED images by traditional artificial methods is a time-consuming process accompanied with certain ambiguity, which limits its application. Here, we identify CBED images by artificial intelligence methods to solve that problem. The method includes segmenting patterns and analyzing mirror symmetry of CBED images. Canny edge detection and Hough transform are used to divide CBED patterns into discs individually, which can successfully extract common key information of all CBED images. Then the direct grey level symmetry similarity evaluation (DGLS) and texture symmetric similarity detection method based on principal component analysis (TSPCA) are both calculated to estimate mirror symmetry performance quantitatively. The average matching rate of accuracy between computer calculation and visual inspection is 96.0% for DGLS and 97% for TSPCA. This method provides a uniform standard for mirror symmetry identification and is more conducive and objective to the analysis of a large number of experimental CBED images, which is of great significance to promote the further research of reading local structure for ferroelectric ceramic.

Published
2019
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9. Design methodology for on-chip-based processor debugger

Author

Jingzhe Xu, Jusung Park, Gyun Woo, Hyeongbae Park, and Jeong-Hoon Ji

Subjects
Multi-core processor, Functional verification, Background debug mode interface, Computer science, business.industry, media_common.quotation_subject, x86 debug register, Debug menu, computer.software_genre, Debugging, Hardware and Architecture, Embedded system, Debug symbol, Operating system, business, computer, Software, media_common, Debugger
Abstract

Due to the increased complexity of modern embedded systems and time-to-market constraints, a debugger with efficient debugging functions is becoming increasingly necessary, and it plays an important role in the development of application systems. Accordingly, the implementation of efficient debug functionalities must a critical process in the design of a new processor. Since deeply embedded processor cores in a core-based system chip allow only restricted access for debugging its internal status, most recent processors employ the on-chip-based debug method that embeds special logic-supporting debug capabilities. In this paper, we propose an on-chip debug support logic that can be embedded into the processor core to support debug functions. Moreover, we describe an overall implementation method of the on-chip-based processor debugger based on the on-chip debug support logic, which includes a source-level debugger and an interface block. We designed an on-chip debug support logic, and embedded it into a target processor core. We used the GNU Project debugger (GDB) as the source-level debugger of the target processor core. An interface block that uses the remote debugging features of GDB was also developed and that includes a software module and a hardware board. We discuss all major design steps for implementing this on-chip-based processor debugger. We have successfully applied the proposed implementation method to develop the processor debugger for two new 32-bit RISC processors. In addition, we introduce another use of the on-chip-based processor debugger in the design of a processor-based system chip, which can facilitate simulation-based functional verification.

Published
2014
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11. Self-organization of coil-rod-coil molecular isomers with conjugated rod segments into supramolecular honeycomb and lamellar assemblies

Author

Keli Zhong, Bingzhu Yin, Jingzhe Xu, Guangri Jin, Jikai Zhu, Tie Chen, and Long Yi Jin

Subjects
Materials science, Polymers and Plastics, Organic Chemistry, Supramolecular chemistry, Conjugated system, Degree of polymerization, Biphenylene, Crystallography, chemistry.chemical_compound, chemistry, Phenylene, Polymer chemistry, Materials Chemistry, Molecule, Lamellar structure, Self-assembly
Abstract

Rod–coil molecules, consisting of flexible and rigid blocks, have a strong capacity to self-assemble into a variety of ordered nanostructures in the bulk state. In this article, we report the synthesis and the self-assembling behavior of coil–rod–coil rectilinear molecular isomers 1 and 2. These molecules consist of conjugated rod segments, which are composed of phenylene, biphenylene and carbon–carbon triple bonds, and poly(ethylene oxide) (PEO) with a degree of polymerization of 7 as coil segments. The molecular structures were characterized by 1H NMR and matrix-assisted laser desorption ionization time-of-flight mass spectroscopy. Investigation of the self-organization of the two molecules by means of differential scanning calorimetry, polarized optical microscopy and X-ray diffraction reveals that, for the coil–rod–coil molecular isomers, rod components of phenylene or biphenylene units linked together with PEO coil chains dramatically influence the self-assembly behavior in the bulk state. Structural isomers 1 and 2 self-assemble into lamellar structures in the crystalline state. In the liquid crystalline phase, molecule 1 containing phenylene units connected to coil segments self-organizes into a hexagonal perforated lamellar structure, while molecule 2 incorporating biphenylene units linked with coil segments self-assembles into a lamellar structure. © 2013 Society of Chemical Industry

Published
2013
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12. The Design of Multi-media SoC Platform Based on Core-A Processor

Author

Jusung Park, Seung-Pyo Jung, Xuelong Xu, and Jingzhe Xu

Subjects
Computer science, business.industry, computer.file_format, JPEG, Core (game theory), Encoding (memory), Embedded system, Communication methods, The Internet, Electronics, Field-programmable gate array, business, computer, Decoding methods, Computer hardware
Abstract

Recently smart devices which combine traditional electronic devices and personal computers, such as smart phones and smart TV, have caught people`s eyes from all over the world. A multi-media SoC platform which embeds not only a calculating processor but also an operating system could provide an user-customized environment of several types of communication methods to PC or Internet. In this paper, we describe a multi-functioning SoC platform with video, audio and other communicating protocols based on Core-A processor and AMBA buses. To verify the designed multi-media SoC platform, JPEG decoding and ADPCM encoding/decoding algorithms are applied on it and the final decoding results are confirmed by video monitors and audio speakers.

Published
2013
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13. Easily Adaptable On-Chip Debug Architecture for Multicore Processors

Author

Jingzhe Xu, Ju Sung Park, Hyeongbae Park, and Seungpyo Jung

Subjects
Multi-core processor, General Computer Science, Background debug mode interface, Computer science, x86 debug register, media_common.quotation_subject, Debug menu, computer.software_genre, Electronic, Optical and Magnetic Materials, Gate count, Debugging, Software_SOFTWAREENGINEERING, Operating system, System on a chip, Electrical and Electronic Engineering, computer, Debugger, media_common
Abstract

Nowadays, the multicore processor is watched with interest by people all over the world. As the design technology of system on chip has developed, observing and controlling the processor core’s internal state has not been easy. Therefore, multicore processor debugging is very difficult and time-consuming. Thus, we need a reliable and efficient debugger to find the bugs. In this paper, we propose an on-chip debug architecture for multicore processors that is easily adaptable and flexible. It is based on the JTAG standard and supports monitoring mode debugging, which is different from run-stop mode debugging. Compared with the debug architecture that supports the run-stop mode debugging, the proposed architecture is easily applied to a debugger and has the advantage of having a desirable gate count and execution cycle. To verify the on-chip debug architecture, it is applied to the debugger of the prototype multicore processor and is tested by interconnecting it with a software debugger based on GDB and configured for the target processor.

Published
2013
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14. Desirability or Feasibility

Author

Xiaofei Xie, Jingzhe Xu, and Jingyi Lu

Subjects
Ego, Male, Social Psychology, Recall, Information seeking, Process (engineering), Self, Decision Making, Information Seeking Behavior, Self other, Preference, Judgment, Social Desirability, Information seeking behavior, Humans, Female, Construal level theory, Psychology, Social psychology
Abstract

Making decisions for the self and providing advice to others are common in daily life. The current research examines the differences in weight that people attach to desirability and feasibility when deciding for themselves versus others. Based on construal level theory, we propose that in a decision-making process, individuals who decide for others tend to focus more on desirability than on feasibility compared with those who decide for themselves. Across five experiments, the predicted self–other differences were observed in preference in the decision stage (Experiments 1a and 1b), information seeking in the predecision stage (Experiment 2), and information recall in the postdecision stage (Experiments 3a and 3b). These findings show that decision behaviors are determined by the decision target (i.e., for whom such decisions are made).

Published
2012
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15. On-Chip Debug Architecture for Multicore Processor

Author

Ju Sung Park, Jingzhe Xu, Hyeongbae Park, and Kil Hyun Kim

Subjects
Multi-core processor, General Computer Science, Background debug mode interface, Computer science, business.industry, x86 debug register, media_common.quotation_subject, Debug menu, computer.software_genre, Electronic, Optical and Magnetic Materials, Debugging, Computer architecture, Software_SOFTWAREENGINEERING, Embedded system, Scalability, Electrical and Electronic Engineering, business, computer, media_common, Block (data storage), Debugger
Abstract

Because of the intrinsic lack of internal-system observability and controllability in highly integrated multicore processors, very restricted access is allowed for the debugging of erroneous chip behavior. Therefore, the building of an efficient debug function is an important consideration in the design of multicore processors. In this paper, we propose a flexible on-chip debug architecture that embeds a special logic supporting the debug functionality in the multicore processor. It is designed to support run-stop-type debug functions that can halt and control the execution of the multicore processor at breakpoint events and inspect the possible causes of any errors. The debug architecture consists of the following three functional components: the core debug support block, the multicore debug support block, and the debug interface and control block. By embedding this debug infrastructure, the embedded processor cores within the multicore processor can be debugged simultaneously as well as independently. The debug control is performed by employing a JTAG-based scanning operation. We apply this on-chip debug architecture to build a debugger for a prototype multicore processor and demonstrate the validity and scalability of our approach.

Published
2012
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16. Design of Halt-Mode and Monitoring-Mode On-ChipDebugger 2G for Core-A

Author

Jusung Park, Donghoon Lee, Daekeon Park, Jingzhe Xu, and Xuelong Xu

Subjects
Reduced instruction set computing, business.industry, Computer science, media_common.quotation_subject, computer.software_genre, Embedded software, Mode (computer interface), Software, Debugging, Computer architecture, Embedded system, Observability, State (computer science), business, computer, Debugger, media_common
Abstract

 Abstract—Nowadays, the SoC is concentrated by all over the world with interest. The design trend of the SoC is hardware and software co-design which includes the design of hardware structure in RTL level and the development of embedded software. As the complexity of SoC design increases with technology development, the observability of the SoC's internal state is no longer easy to achieve. Because of the above reasons, debugging the SoC system becomes very difficult and time-consuming. So we need a reliable debugger to find the bugs in the SoC and embedded software. In this paper, we deal with implementation of a hardware debugger named OCD2G which is based on IEEE 1149.1 JTAG standard and supports halt-mode and monitoring-mode debugging. In order to verify the operation of OCD2G, the designed debugger is integrated into the 32bit RISC processor - Core-A (Core-A is an embedded processor designed in South Korea) and is tested by interconnecting with software debugger.

Published
2013
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17. Bio-signal procssor platform system for array sensors

Author

Jingzhe Xu, Jusung Park, Youngju Park, Donghoon Lee, and Seungpyo Jung

Subjects
Reduced instruction set computing, Parallel processing (DSP implementation), business.industry, Computer science, ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS, Noise component, computer.file_format, business, Signal, Capacitance, computer, Computer hardware, Data conversion
Abstract

Bio-signal processor platform system carries out the bio-signal processing extracted from array sensors. This system consists of 32-bit RISC processor, data converter circuit, array sensors and bio-signal processing algorithm. The designed specific processor includes CPU functional blocks and memory. Array sensors measure a variation of capacitance value by reaction with DNA, aptamer and protein. Processor reduces noise component from measured bio-signal and compares and detects disease by analyzing properties of bio-signals.

Published
2011
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18. Design of On-Chip Debug System for embedded processor

Author

Gyun Woo, Jingzhe Xu, Hyung-Bae Park, Jusung Park, and Jung-Hoon Ji

Subjects
Reduced instruction set computing, Computer science, business.industry, Interface (computing), media_common.quotation_subject, computer.software_genre, Debugging, Interfacing, Block (telecommunications), Embedded system, Operating system, System on a chip, Field-programmable gate array, business, computer, Debugger, media_common
Abstract

In this paper, we introduce on-chip debug system (OCDS) which supports symbolic debugging at c-level using OCD integrated Debug-logic into target processor. The OCDS consist of SW debugger that supports a functionality of symbolic debugging, OCD (on-chip debugger) serving as a debugger of internal state of target processor, and Interface & Control block interfacing SW debugger and OCD. After OCD block is interfaced with 32 bit RISC processor core and then implemented with FPGA, OCD is connected by Interface & Control block, and SW debugger. The verification of the design is carried out through device recognition, carrying-out instructions of JTAG(joint test action group), reading and writing the internal registers of the processor and memory, and checking the emulation functions such as setting break-points and watch points.

Published
2008
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19. Design & verification of 16 bit RISC processor

Author

Ju Sung Park, Seung Pyo Jung, Jingzhe Xu, Donghoon Lee, Koon-Shik Cho, and Kang-joo Kim

Subjects
Logic synthesis, Reduced instruction set computing, Fujitsu FR, Computer science, business.industry, Embedded system, Pipeline (computing), Application-specific instruction-set processor, Classic RISC pipeline, Hardware_ARITHMETICANDLOGICSTRUCTURES, Harvard architecture, business, Field-programmable gate array
Abstract

The procedure of design and verification for a 16-bit RISC processor is introduced in this paper. The proposed processor has Harvard architecture and consists of 24-bit address, 5-stage pipeline instruction execution, and internal debug logic. ADPCM vocoder and SOLA algorithm are successfully carried out on the processor made with FPGA.

Published
2008
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