Relevant bibliographies by topics / Advanced Microcontroller Bus Architecture (AMBA)

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Advanced Microcontroller Bus Architecture (AMBA)'

Author: Grafiati
Published: 4 June 2021
Last updated: 16 February 2022

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Journal articles on the topic "Advanced Microcontroller Bus Architecture (AMBA)"

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A.M. Alias, M. N., S. N. Mohyar, M. N. Isa, A. Harun, A. B. Jambek, and S. A. Z. Murad. "Design and analysis of dedicated real-time clock for customized microcontroller unit." Indonesian Journal of Electrical Engineering and Computer Science 14, no. 2 (2019): 796. http://dx.doi.org/10.11591/ijeecs.v14.i2.pp796-801.

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<span>In this paper, a Real Time Clock (RTC) system for a dedicated microcontroller is proposed to provide the customized microcontroller its own time and date system. The RTC is developed using Verilog Hardware Description Language (HDL) and simulated using Synopsys software. This RTC is developed with standard Advance Peripheral Bus (APB) to be interfacing with the microcontroller through Advanced Microcontroller Bus Architecture (AMBA). This RTC will be used as an on-chip RTC in the microcontroller system to provide precise time and date which can be used for various applications. The basic architecture of RTC, APB standard for interfacing the RTC with AMBA bus, and the result in term of RTL, waveform, and layout will be discussed in this documentation. For this research, the part covered is on the logic part of the RTC that is bus interface, register, frequency divider and counter.</span>
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Hang Suan, Wang, Asral Bahari Jambek, Mohd Nazrin Bin Md Isa, Azizi Bin Harun, Shaiful Nizam Bin Mohyar, and Zulfiqar Ali Bin Abd. Aziz. "Design and implementation of AMBA bridge protocol in system on chip design." Indonesian Journal of Electrical Engineering and Computer Science 14, no. 2 (2019): 788. http://dx.doi.org/10.11591/ijeecs.v14.i2.pp788-795.

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<span>The Advanced Microcontroller Bus Architecture (AMBA) is widely used in modern technology device. The design of bridge in the system is due to increase demand of power consumption and functionality. The bridge help to reduce power by separate the system into high bandwidth and low bandwidth. The goal of this paper is to design and implement the AMBA bridge into a SoC design which consists of a processor, RAM, ROM, watchdog and LED module. These peripherals are connected separately based on different bandwidth with a bridge as the medium. The result shown the bridge transfer a correct data from the ROM into the RAM. The experiment was carry out using Synopsys 2017 and Keil uVision.</span>
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"Ultra Low Power and High Efficiency Advanced Microcontroller Design using Amba Architecture." International Journal of Recent Technology and Engineering 8, no. 2 (2019): 6167–74. http://dx.doi.org/10.35940/ijrte.b3803.078219.

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The ARM Advanced Microcontroller Bus Architecture (AMBA) is an open-criterion, on-chip interrelate particle particular in favor of the association also the board of useful squares in framework on a chip (SoC) plans. It encourages improvement of multi processor plans through expansive quantities of manager as well as peripherals among a transport design. Seeing as its commencement, the extent of AMBA has, regardless of its name, disappeared a long way past microcontroller gadgets. Nowadays, AMBA is broadly utilized on a scope of ASIC along with SoC divisions incorporating requests processors utilized in current convenient cell phones like advanced mobile phones. The structure comprises of at least one CPUs, GPUs or flag processors, autonomous, to permit reuse of IP centers, fringe and framework full scale cells crosswise over differing IC forms, supporting superior and low power on-chip correspondence.
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"Modified Encryption Standard with High Performance through Secure Protocol." International Journal of Recent Technology and Engineering 8, no. 4 (2019): 3357–61. http://dx.doi.org/10.35940/ijrte.c6316.118419.

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The Advanced Encryption Standard (AES) has been accepted worldwide as a desirable algorithm to encryption and decryption sensitive information. In cryptography the unencrypted information referrers to as plaintext it is encrypted into cipher-text, which will in turn be decrypted back into the usable plaintext. The encryption and decryption are based on the type of cryptography system and secret keys. The secret key is responsible for preparing the input key to be used by the cipher in each round. AES with one-stage pipeline producing minor reduction of delay but does not show any improvement in area and power consumption. To overcome the above drawbacks, the basic architecture of AES, which includes encryption and decryption can be modified with one stage pipeline architecture by using one- dimensional Substitute Box (SBOX). Advanced Microcontroller Bus Architecture (AMBA) describes level of an on-chip communication standards for elevated performance embedded microcontrollers. AMBA AHB (Advanced High Performance Bus) is intended for elevated performance and high-frequency clocks. AHB has unique characteristics such as burst transfer, split transaction and single-cycle master bus transfer. 128 bit plain text is guided by AMBA-AHB requirements and can be used to send a plain text block to the cypher per clock cycle.. Plain text of 128 bit is driven by AMBAAdvanced High-performance Bus. AMBA-AHB specifications and supports the transmission to the cipher of a plain text block per clock cycle i.e., Modified Encryption Standard will be implemented with AMBA –AHB driven by input, which provides on-chip communication, increasing security of encryption standard. Propositioning methodology, Modified Encryption Standard will be simulated and synthesized by using Xilinx ISim 14.7 FPGA.
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Math, Shaila S., and Manjula R. B. "Design of AMBA AXI4 protocol for System-on-Chip communication." International Journal of Communication Networks and Security, January 2012, 38–42. http://dx.doi.org/10.47893/ijcns.2012.1033.

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Advanced microcontroller bus architecture (AMBA) protocol family provides metric-driven verification of protocol compliance, enabling comprehensive testing of interface intellectual property (IP) blocks and system-on-chip (SoC) designs. The AMBA advanced extensible interface 4 (AXI4) update to AMBA AXI3 includes the following: support for burst lengths up to 256 beats, updated write response requirements, removal of locked transactions and AXI4 also includes information on the interoperability of components. AMBA AXI4 protocol system supports 16 masters and 16 slaves interfacing. This paper presents a work aimed to design the AMBA AXI4 protocol modeled in Verilog hardware description language (HDL) and simulation results for read and write operation of data and address are shown in Verilog compiler simulator (VCS) tool. The operating frequency is set to 100MHz. Two test cases are run to perform multiple read and multiple write operations. To perform single read operation module takes 160ns and for single write operation it takes 565ns.
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"Implementation of VIP for bus interface logic of 32-bit processor using System Verilog." Informacije MIDEM - Journal of Microelectronics, Electronic Components and Materials, February 1, 2019, 205–11. http://dx.doi.org/10.33180/infmidem2018.402.

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A verification environment to verify an ARM-based SoC is proposed in this work. This work introduces the design of a Verification Intellectual Property (VIP) of Advanced Microcontroller Bus Architecture (AMBA). AMBA protocols are today the best standards for 32-bit processor because they are well documented and can be used without royalties. The VIP provides Coverage Driven Verification (CDV) which significantly reduces the design verification time. The code coverage verification of the AHB bus master, Icache controller, Dcache controller and APB peripherals such as APB bridge, timer, UART, and ACE is done in this work. The test cases done for the APB peripherals are ACE with the mil_std_protocol, Timers for generation of interrupt and watchdog reset, UART for transmitting and receive messages, and interrupt registers for Reading and Write. The functional verification of AMBA is carried out using the Mentor Graphics Questasim tool with the system Verilog language
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"Designing SPI to I2C Protocol Converter Base on ASIC Technology and Implementing on the FPGA Platform." JST: Smart Systems and Devices 31, no. 2 (2021): 19–26. http://dx.doi.org/10.51316/jst.152.ssad.2021.31.2.3.

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Nowadays embedded systems are using a lot of different communication standards to transfer data such as USB, UART, SPI, I2C, etc. To be able to transfer data with each communication standard, the system needs at least one controller block for that communication standard. This has added to the complexity of the system and the cost of manufacturing hardware. Embedded systems only support SPI communication if desired, which can still be communicated with peripherals with I2C standard. However, the SPI cannot be directly connected to the I2C but must use a standard communication converter. This paper will primarily focus on designing an IP core communication standard converter from SPI to I2C using APB (Advanced Peripheral Bus) communication as one of the AMBA (Advanced Microcontroller Bus Architecture) communication sets. In particular, APB is a bus used to communicate with peripherals that do not require fast processing speeds such as UART, SPI, I2C, etc.
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Dissertations / Theses on the topic "Advanced Microcontroller Bus Architecture (AMBA)"

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Yang, Xiaokun. "A High Performance Advanced Encryption Standard (AES) Encrypted On-Chip Bus Architecture for Internet-of-Things (IoT) System-on-Chips (SoC)." FIU Digital Commons, 2016. http://digitalcommons.fiu.edu/etd/2477.

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With industry expectations of billions of Internet-connected things, commonly referred to as the IoT, we see a growing demand for high-performance on-chip bus architectures with the following attributes: small scale, low energy, high security, and highly configurable structures for integration, verification, and performance estimation. Our research thus mainly focuses on addressing these key problems and finding the balance among all these requirements that often work against each other. First of all, we proposed a low-cost and low-power System-on-Chips (SoCs) architecture (IBUS) that can frame data transfers differently. The IBUS protocol provides two novel transfer modes – the block and state modes, and is also backward compatible with the conventional linear mode. In order to evaluate the bus performance automatically and accurately, we also proposed an evaluation methodology based on the standard circuit design flow. Experimental results show that the IBUS based design uses the least hardware resource and reduces energy consumption to a half of an AMBA Advanced High-Performance Bus (AHB) and Advanced eXensible Interface (AXI). Additionally, the valid bandwidth of the IBUS based design is 2.3 and 1.6 times, respectively, compared with the AHB and AXI based implementations. As IoT advances, privacy and security issues become top tier concerns in addition to the high performance requirement of embedded chips. To leverage limited resources for tiny size chips and overhead cost for complex security mechanisms, we further proposed an advanced IBUS architecture to provide a structural support for the block-based AES algorithm. Our results show that the IBUS based AES-encrypted design costs less in terms of hardware resource and dynamic energy (60.2%), and achieves higher throughput (x1.6) compared with AXI. Effectively dealing with the automation in design and verification for mixed-signal integrated circuits is a critical problem, particularly when the bus architecture is new. Therefore, we further proposed a configurable and synthesizable IBUS design methodology. The flexible structure, together with bus wrappers, direct memory access (DMA), AES engine, memory controller, several mixed-signal verification intellectual properties (VIPs), and bus performance models (BPMs), forms the basic for integrated circuit design, allowing engineers to integrate application-specific modules and other peripherals to create complex SoCs.
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Chan, Sheng-Hsiang, and 詹勝翔. "The Design and Verification of Advanced Microcontroller Bus Architecture (AMBA) 2.0." Thesis, 2007. http://ndltd.ncl.edu.tw/handle/8y6jdd.

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碩士<br>國立臺灣科技大學<br>電子工程系<br>95<br>With the growing of the comsumer market, cost and performance are the two important factors to the success of products. One way to achieve this is to build an entire system on a silicon chip, known as system-on-a-chip (SoC). In order to provide a flexible platform for designing various applications in a short time, in this thesis we propose a platform, which includes the ARM v4 ISA compatible microprocessor IP, an AMBA bus controller and most widely used perpherials, such as the memory interface, an interrupt controller, a DMA controller, 32 GPIO ports, a UART controller, a programmable PWM controller, and a 32-bit timer. The resulting AMBA System has been implemented and verified with Xilinx Spartan-3 XC3S1500-4FG676 FPGA and TSMC 0.35 μm cell library, respectively. In the FPGA part, it takes 15272 LUTs and operates at the maximum working frequency of 16 MHz. Furthermore, all of the testing programs and perephiral functions are run successfully in FPGA development board. In the cell-based part, the core occupies 4704 μm x 4368 μm, which is approximately equivalent to 94131 gates, and whole chip occupies 5434 μm × 5434 μm. AMBA System consumes about 179 mW~191 mW in the SS (Slow NMOS Slow PMOS model) simulation condition at the maximum working frequency of 33 MHz.
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Γερακάρης, Δημήτρης. "Ανάπτυξη cache controller βασισμένο στον δίαυλο AHB bus". Thesis, 2013. http://hdl.handle.net/10889/7520.

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Η παρούσα διπλωματική αποτελεί την προσπάθεια κατασκευής ενός cache controller βασισμένο στον AHB BUS. Η ανάπτυξή του έγινε ως επί το πλείστο στο Εργαστήριο Vlsi του τμήματος Μηχανικών Υπολογιστών και Πληροφορικής με την προοπτική να ενσωματωθεί σε ένα ευρύτερο υπάρχων σύστημα βασισμένο στον open source cpu της arm Cortex M0. Δοκιμάστηκε επιτυχώς σε FPGA του εργαστηρίου αλλά ακόμα δεν έχει χρησιμοποιηθεί σε «πραγματικές συνθήκες». Απώτερος στόχος είναι να χρησιμοποιηθεί στο εργαστήριο για την επιτάχυνση εφαρμογών που θα χρειαστούν εξωτερική μνήμη δηλ. μεγαλύτερη μνήμη από την embedded του FPGA. Αν και δεν δοκιμάστηκε σε κάποιο άλλο σύστημα έχει φτιαχτεί με γνώμονα το πρότυπο του AHB οπότε υποθετικά δεν θα έχει κάποιο πρόβλημα να ενσωματωθεί σε οποιοδήποτε συμβατό με τον δίαυλο σύστημα. Η λογική πίσω από την υλοποίηση του είναι να είναι σχετικά εύκολη η αλλαγή ορισμένων μεταβλητών ώστε να διαφοροποιείται ο controller βάση των αναγκών του καθενός. Οι προδιαγραφές δίνονται παρακάτω αν και πιθανόν εκτός των πλαισίων της διπλωματικής και εντός του 2014 να επανα-σχεδιαστεί ώστε να γίνει πλήρως modular.<br>Cache controller compatible with AHB bus in system Verilog.
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Book chapters on the topic "Advanced Microcontroller Bus Architecture (AMBA)"

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Recupero, Diego Reforgiato, Valentino Artizzu, Francesca Cella, et al. "Leveraging the Arduino Platform to Develop Information Technology Devices." In Advanced Methodologies and Technologies in Media and Communications. IGI Global, 2019. http://dx.doi.org/10.4018/978-1-5225-7601-3.ch008.

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Arduino is a famous board, which incorporates serial communication interfaces, including universal serial bus (USB) and an integrated development environment (IDE) based on Processing, a programming language that supports C and C++. It consists of a microcontroller with several other components that provide easy interconnections with other devices. Arduino and its components have been studied during the class of Computer Architecture for the degree in Computer Science at the University of Cagliari in 2016. At the end of the class, seven groups of students have been selected and chosen to carry out a device prototype on top of Arduino and show their methodology, the sensors they embedded on top, how data could be extracted, collected, stored in database for further processing and analytics. The development has been performed following the open source best practices; documentation and codes of these projects have been made online for free downloading and sharing in order to further contribute to the advancement and widespread usage of the Arduino platform.
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Conference papers on the topic "Advanced Microcontroller Bus Architecture (AMBA)"

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Jain, Padmaprabha, and Satheesh Rao. "Design and Verification of Advanced Microcontroller Bus Architecture-Advanced Peripheral Bus (AMBA-APB) Protocol." In 2021 Third International Conference on Intelligent Communication Technologies and Virtual Mobile Networks (ICICV). IEEE, 2021. http://dx.doi.org/10.1109/icicv50876.2021.9388549.

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Warathe, Kanchan, Dinesh Padole, and Preeti Bajaj. "A Design Approach to AMBA (Advanced Microcontroller Bus Architecture) Bus Architecture with Dynamic Lottery Arbiter." In 2009 Annual IEEE India Conference. IEEE, 2009. http://dx.doi.org/10.1109/indcon.2009.5409365.

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Arellano, Derell S., Geraldine A. Malaguit, Michelle T. Sosing, et al. "Design of an Advanced Microcontroller Bus Architecture for Wireless Sensor Network in 90nm Process Technology." In TENCON 2018 - 2018 IEEE Region 10 Conference. IEEE, 2018. http://dx.doi.org/10.1109/tencon.2018.8650335.

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