185 research outputs found

    Influences of New Trend in Development of American and Canadian E-Business upon Mainland Enterprises and Our Development Strategies

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    A comprehensive view of the world E-business development in the past year shows that, in spite of the turndown of the net economy for the past year and that the term “E-business” is even used by many media to represent “Foam Economy”. But within some high-tech companies as well as some conventional industries under reconstruction, “Mouse Plus Concrete”, another model of E-business, is now showing brand new value. Meanwhile, some conventional enterprises in the mainland are also brewing further breakthroughs in E-business in order to take the win of the coming market competition. As for the conversion of the enterprises, the model of E-business in North American countries like USA and Canada is undoubtedly the example and forerunner for domestic enterprises. In this background, the article, via a research of new situation of E-business development in North America as well as typical cases of its application in the enterprise, is intended to analyze and sum up the application characteristics and accordingly, the pressing demand for E-business as well as reasoning and measures of E-business development in enterprises

    Characteristics of Abjection in First Love, Last Rites

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    First Love, Last Rites was one of the greatest works of English writer Ian McEwan, which leaded him to fame. The book was based on eight short-stories from eight teenagers’ or youth’s point of views. Among those stories, the men suffered from different dilemmas of sexual states, in which horror, violence, death, cruelty, absurdity, mildness and sadness were mixed and interwoven. Applying Julia Kristeva’ s theory of abjection, the eight heroes in the book acted different unusual sexual behaviors because of abjection towards somebody or something in life. In the meantime,the readers could also introspect their status and identities through the stories. Thus, extreme as the plots in this novel, it is true that the mental state of abjection and disorientation still tortures people nowadays. Through this work, the readers may reflect on the life they are experiencing and build up their own self -identity.

    A Wasserstein distance-based spectral clustering method for transaction data analysis

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    With the rapid development of online payment platforms, it is now possible to record massive transaction data. Clustering on transaction data significantly contributes to analyzing merchants' behavior patterns. This enables payment platforms to provide differentiated services or implement risk management strategies. However, traditional methods exploit transactions by generating low-dimensional features, leading to inevitable information loss. In this study, we use the empirical cumulative distribution of transactions to characterize merchants. We adopt Wasserstein distance to measure the dissimilarity between any two merchants and propose the Wasserstein-distance-based spectral clustering (WSC) approach. Based on the similarities between merchants' transaction distributions, a graph of merchants is generated. Thus, we treat the clustering of merchants as a graph-cut problem and solve it under the framework of spectral clustering. To ensure feasibility of the proposed method on large-scale datasets with limited computational resources, we propose a subsampling method for WSC (SubWSC). The associated theoretical properties are investigated to verify the efficiency of the proposed approach. The simulations and empirical study demonstrate that the proposed method outperforms feature-based methods in finding behavior patterns of merchants

    Assessment of Liberia's Beer Industry Effluent Discharge Parameters in the Context of Urban Sustainability

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    Due to untreated brewery effluent and increasing industrial growth, most of Liberia's rivers have considerable water body pollution. The nature and extent of pollution caused by wastewater effluent discharged into these environments have not been thoroughly examined. This study looked into the effects of such effluents on the beer industry in Montserrado, Liberia. It assesses discharged effluent parameters, sustainable management practices, and potential wastewater reuse options within the context of urban sustainability. The findings highlight the need for immediate and substantial intervention to mitigate escalating pollution and associated health risks. The research also noted for the development of practical national industrial discharge standards, regulatory and management framework, tailored to local contexts, rather than a uniform application of stringent regulations that may hinder sectoral growth and intensify public health issues in under-resourced areas. Furthermore, the effectiveness of some treatment technologies. Technology consideration such as onsite treatment and irrigation that enable water reuse options (cooling, agriculture, and resource recovery) which can significantly reduce the environmental footprint of breweries were recommended. However, the implementation of these technologies may face challenges due to infrastructure deficiencies, financial constraints, and public perception regarding the safety and quality of reused wastewater. The analysis concludes that enhancing wastewater discharge effluents management is key for promoting sustainable industrial growth, improving water conservation, and gaining public trust and acceptance. Achieving these goals requires a concerted effort to strengthen policy, enhance technical capacity, and invest in community engagement to foster a sustainable and economically viable brewery sector.&nbsp

    Low-latency Hardware Architecture for VDF Evaluation in Class Groups

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    The verifiable delay function (VDF), as a kind of cryptographic primitives, has recently been adopted quite often in decentralized systems. Highly correlated to the security of VDFs, the fastest implementation for VDF evaluation is generally desired to be publicly known. In this paper, for the first time, we propose a low-latency hardware implementation for the complete VDF evaluation in the class group by joint exploiting optimizations. On one side, we reduce the required computational cycles by decreasing the hardware-unfriendly divisions and increase the parallelism of computations by reducing the data dependency. On the other side, well-optimized low-latency architectures for large-number divisions, multiplications, and additions are developed, respectively, while those operations are generally very hard to be accelerated. Based on these basic operators, we devise the architecture for the complete VDF evaluation with possibly minimal pipeline stalls. Finally, the proposed design is coded and synthesized under the TSMC 28-nm CMOS technology. The experimental results show that our design can achieve a speedup of 3.6x compared to the optimal C++ implementation for the VDF evaluation over an advanced CPU. Moreover, compared to the state-of-the-art hardware implementation for the squaring, a key step of VDF, we achieve about 2x speedup

    A High-Speed Architecture for the Reduction in VDF Based on a Class Group

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    Due to the enormous energy consuming involved in the proof of work (POW) process, the resource-efficient blockchain system is urged to be released. The verifiable delay function (VDF), being slow to compute and easy to verify, is believed to be the kernel function of the next-generation blockchain system. In general, the reduction over a class group, involving many complex operations, such as the large-number division and multiplication operations, takes a large portion in the VDF. In this paper, for the first time, we propose a highspeed architecture for the reduction by incorporating algorithmic transformations and architectural optimizations. Firstly, based on the fastest reduction algorithm, we present a modified version to make it more hardware-friendly by introducing a novel transformation method that can efficiently remove the largenumber divisions. Secondly, highly parallelized and pipelined architectures are devised respectively for the large-number multiplication and addition operations to reduce the latency and the critical path. Thirdly, a compact state machine is developed to enable maximum overlapping in time for computations. The experiment results show that when computing 209715 reduction steps with the input width of 2048 bits, the proposed design only takes 137.652ms running on an Altera Stratix-10 FPGA at 100MHz frequency, while the original algorithm needs 3278ms when operating over an i7-6850K CPU at 3.6GHz frequency. Thus we have obtained a drastic speedup of nearly 24x over an advanced CPU

    Low-Latency Design and Implementation of the Squaring in Class Groups for Verifiable Delay Function Using Redundant Representation

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    A verifiable delay function (VDF) is a function whose evaluation requires running a prescribed number of sequential steps over a group while the result can be efficiently verified. As a kind of cryptographic primitives, VDFs have been adopted in rapidly growing applications for decentralized systems. For the security of VDFs in practical applications, it is widely agreed that the fastest implementation for the VDF evaluation, sequential squarings in a group of unknown order, should be publicly provided. To this end, we propose a possible minimum latency hardware implementation for the squaring in class groups by algorithmic and architectural level co-optimization. Firstly, low-latency architectures for large-number division, multiplication, and addition are devised using redundant representation, respectively. Secondly, we present two hardware-friendly algorithms which avoid time-consuming divisions involved in calculations related to the extended greatest common divisor (XGCD) and design the corresponding low-latency architectures. Besides, we schedule and reuse these computation modules to achieve good resource utilization by using compact instruction control. Finally, we code and synthesize the proposed design under the TSMC 28nm CMOS technology. The experimental results show that our design can achieve a speedup of 3.6x compared to the state-of-the-art implementation of the squaring in the class group. Moreover, compared to the optimal C++ implementation over an advanced CPU, our implementation is 9.1x faster
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