Wireless IC Design with SoC and Low Power Techniques
(应用SOC及低功耗技术的无线IC设计) |
入学要求 |
学员学习本课程应具备下列基础知识:
◆ 电路系统的基本概念。 |
班级规模及环境 |
为了保证培训效果,增加互动环节,我们坚持小班授课,每期报名人数限3到5人,多余人员安排到下一期进行。 |
上课时间和地点 |
上课地点:【上海】:同济大学(沪西)/新城金郡商务楼(11号线白银路站) 【深圳分部】:电影大厦(地铁一号线大剧院站)/深圳大学成教院 【北京分部】:北京中山学院/福鑫大楼 【南京分部】:金港大厦(和燕路) 【武汉分部】:佳源大厦(高新二路) 【成都分部】:领馆区1号(中和大道) 【沈阳分部】:沈阳理工大学/六宅臻品 【郑州分部】:郑州大学/锦华大厦 【石家庄分部】:河北科技大学/瑞景大厦
最近开课时间(周末班/连续班/晚班): 无线IC设计培训班:2015年6月8日 |
学时 |
◆课时: 共5天,30学时
◆外地学员:代理安排食宿(需提前预定)
☆注重质量
☆边讲边练
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☆合格学员免费颁发相关工程师等资格证书,提升您的职业资质
专注高端培训15年,曙海提供的证书得到本行业的广泛认可,学员的能力
得到大家的认同,受到用人单位的广泛赞誉。
★实验设备请点击这儿查看★ |
最新优惠 |
◆团体报名优惠措施:两人95折优惠,三人或三人以上9折优惠 。注意:在读学生凭学生证,即使一个人也优惠500元。 |
质量保障 |
1、培训过程中,如有部分内容理解不透或消化不好,可免费在以后培训班中重听;
2、培训结束后,培训老师留给学员手机和Email,免费提供半年的技术支持,充分保证培训后出效果;
3、培训合格学员可享受免费推荐就业机会。 ☆合格学员免费颁发相关工程师等资格证书,提升您的职业资质。专注高端培训13年,曙海提供的证书得到本行业的广泛认可,学员的能力得到大家的认同,受到用人单位的广泛赞誉。 |
应用SOC及低功耗技术的无线IC设计培训班 |
- SOC的设计方法与实现
- 低功耗电路的特殊设计
- 各种运算电路、滤波电路的设计考量
- 调制解调电路的算法与设计
- 傅利叶变换电路的设计技巧
第一部分 - Introduction
- What is SoC? and why is it important for Wireless, why not use a DSP?
- Impact and examples of applications
- Tools and metrics for analysis of performance, cost and power.
- Impact on memory subsystem
- Exploration of architectural space and alternatives
- Design choices (algorithm mappings), pipelining v/s concurrent, test methodology
- Components of a wireless modem
Assignment: Analyzing requirements for a balanced design from a system perspective
第二部分 - Arithmetic Building Blocks and Fixed Point Arithmetic
- Representations and notations
- Fixed point arithmetic v/s floating point
- Adders:? RCA, CLA, CSA
- Multiplier designs: Booth recoding and low power implications
- Array multipliers using counters, impact on layout.? Pipelined designs.
- Modeling of finite register length effects
- Block floating point representations and Dynamic range
- High performance, low power arithmetic blocks
- Lab: verilog and synthesis of diff arithmetic blocks, +, *. Compare area v/s speed v/s power
第三部分 - Digital Filters
- Types of filters and their applications, decimation /interpolation.
- Spectral requirements, channel equalization and? inter symbol interference
- FIR filters
- IIR filters, numerical stability issues. Implications of pipelined performance of multipliers on IIR filters.
- Adaptive filters, Decision feedback equalizer
- Design and test tradeoffs
- Examples of High performance, low power? ???design and implementations
- Lab: Design filters (FIR, IIR, adaptive filters) for different constraints
第四部分 - Coding and Forward Error Correction
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? - Forward error correction and it’s application in wireless modems
? - Convolutional coding and decoding (Viterbi algorithm)
? - Trellis coding (if time permits)
? - Turbo-coding and decoding
? - Design tradeoffs, ACS units, memory addressing schemes, scaling/wraparound, pipelining
? - Examples of high performance systolic design, low power designs and implementations
? - Lab: Design a viterbi decoder for a convolutional for 3G standard, implement a scaled down version of it.
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第五部分 - Transforms – Fourier Transforms
- Applications : OFDM modulation in wireless systems (used in 802.11a and 802.11g)
- Discrete Fourier transform
- Applications
- Decomposition and the Fast Fourier Transform
- Variants and mixed radix transforms
- Memory architectures, addressing schemes, block floating point, pipelining
- Testing - Design of a FT block.
- High performance, low latency
- High performance, high throughput
- Programable
- Reconfigurable
Lab: Design and implement a butterfly unit, build a 16 point pipelined FFT block. Synthesize and analyze the timing and determine pipelining. Understand the contributions of the different components to gate count and power consumption.
第六部分 - System Design – Case Study
- The design of a communications system
- XDSL
- Wireless modem
- The implications of the various tradeoff.
- System constraints include multichannel, high performance design, single channel low power design, etc.
- Lab: Catchup
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