A statistical approach for design and testing of analog circuitry in low-cost SoCs

Eliezer, Oren; Staszewski, Robert Bogdan; Mannath, Deepa

doi:10.1109/mwscas.2010.5548733

Cited by 5 publications

(4 citation statements)

References 4 publications

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“…Statistical analyses, demonstrating the validity of the crude-measurement approach for final-testing, are provided in [17] and summarized in the following subsections.…”

Section: Built-in Self Testing (Bist) Fundamentalsmentioning

confidence: 99%

“…However, with such approach, the test program is still forced to measure that performance parameter accurately, resulting in the need for accurate analog ATE, as well as the need to fail devices that do not meet the criteria, both of which impact profitability. Contrarily, the approach described in [17] proposes the use of 'soft specifications', wherein the statistical distribution of a performance parameter, characterized over sufficiently large volumes, is communicated to customers. For example, a receiver's sensitivity may be within a certain range around the typical value with some 99% probability, and up to 2 dB inferior to that value with less than 1% probability.…”

Section: Defining the Pass/fail Criteria For A Testmentioning

confidence: 99%

“…A post-fabrication approach to dealing with such scenario would be the redefinition of the performance specifications, which are anyway usually somewhat arbitrary numerical limits that presumably correspond to user experiences, as stated in [17]. As explained in Sect.…”

Section: The Implementation Of Built-in Self-testing (Bist)mentioning

confidence: 99%

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Built-In Measurements in Low-Cost Digital-RF Transceivers

Eliezer

Staszewski

2011

IEICE Trans. Electron.

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SUMMARYDigital RF solutions have been shown to be advantageous in various design aspects, such as accurate modeling, design reuse, and scaling when migrating to the next CMOS process node. Consequently, the majority of new low-cost and feature cell phones are now based on this approach. However, another equally important aspect of this approach to wireless transceiver SoC design, which is instrumental in allowing fast and low-cost productization, is in creating the inherent capability to assess performance and allow for low-cost built-in calibration and compensation, as well as characterization and final-testing. These internal capabilities can often rely solely on the SoCs existing processing resources, representing a zero cost adder, requiring only the development of the appropriate algorithms. This paper presents various examples of built-in measurements that have been demonstrated in wireless transceivers offered by Texas Instruments in recent years, based on the digital-RF processor (DRP TM ) technology, and highlights the importance of the various types presented; built-in self-calibration and compensation, built-in self-characterization, and builtin self-testing (BiST). The accompanying statistical approach to the design and productization of such products is also discussed, and fundamental terms related with these, such as 'soft specifications', are defined. key words: system-on-chip (SoC), digital RF processor (DRP), design for testability (DfT), design for manufacturability (DfM), built-in self-testing (BiST), soft specifications

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“…Statistical analyses, demonstrating the validity of the crude-measurement approach for final-testing, are provided in [17] and summarized in the following subsections.…”

Section: Built-in Self Testing (Bist) Fundamentalsmentioning

confidence: 99%

Section: Defining the Pass/fail Criteria For A Testmentioning

confidence: 99%

See 1 more Smart Citation

Built-In Measurements in Low-Cost Digital-RF Transceivers

Eliezer

Staszewski

2011

IEICE Trans. Electron.

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“…Moreover, rising variability from technology scaling has been identified as one of the main CMOS fabrication challenges due to its influence on the functionality, yield, and profitability of products [4]. Therefore, besides designing to meet specifications, it becomes increasingly important to decrease the statistical variations of circuit performance parameters in order to improve production yields and to reduce the manufacturing test cost by employing new statistical design approaches such as those described in [7]. A design technique towards this goal is presented in this letter.…”

Section: Introductionmentioning

confidence: 99%

Mismatch reduction technique for transistors with minimum channel length

Onabajo

Silva-Martínez

2011

Analog Integr Circ Sig Process

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An analog calibration technique is presented to improve the parameter matching between transistors in the differential high-frequency signal path of analog CMOS circuits. It can be applied for mismatch reduction in differential broadband amplifiers and direct down-conversion mixers in which short-channel devices are utilized to minimize bandwidth reduction from parasitic capacitances. In general, the proposed methodology is suitable for radio frequency (RF) applications in which direct matching of the transistors is undesired because sophisticated layout practices would increase the coupling between the high-frequency paths. The approach involves auxiliary devices which sense the existing mismatch as part of a feedback loop for error minimization. This technique is demonstrated with a differential amplifier that has a loaded gain and -3 dB frequency of 12.9 dB and 2.14 GHz, respectively. It was designed in 90 nm CMOS technology with a 1.2 V supply. Monte Carlo simulations indicate that the 4.06 mV standard deviation of the amplifier's anticipated input-referred offset voltage improves to 0.76-1.28 mV with the mismatch reduction loop, which is contingent on the layout configuration of the calibration circuitry. The associated drain current mismatch reduction for the transistor pair under calibration in the amplifier core is from 3.1% to 0.6-1.0%.

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Process Variation Challenges and Solutions Approaches

Onabajo

Silva-Martínez

2012

Analog Circuit Design for Process Variation-Resilient Systems-on-a-Chip

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A statistical approach for design and testing of analog circuitry in low-cost SoCs

Cited by 5 publications

References 4 publications

Built-In Measurements in Low-Cost Digital-RF Transceivers

Built-In Measurements in Low-Cost Digital-RF Transceivers

Mismatch reduction technique for transistors with minimum channel length

Process Variation Challenges and Solutions Approaches

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