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Sequoia Voting Systems

Sequoia Voting Systems was a California-based manufacturer of electronic voting equipment and election software used in numerous U.S. jurisdictions.^[1]^[2] The company developed direct-recording electronic (DRE) systems, including the touch-screen AVC Edge activated by smart card and the full-face AVC Advantage with touch-sensitive switches, alongside optical scan tabulators such as the Optech Insight for ballot reading at polling places.^[1]^[3]^[4] Sequoia's systems facilitated voting in states like Nevada, where the AVC Edge achieved a low residual vote rate of 0.3% in the 2004 presidential election, but faced empirical scrutiny in security assessments revealing exploitable flaws requiring physical access, such as in California's 2007 top-to-bottom review and subsequent decertification of its systems.^[5]^[6]^[2] Originally independent, Sequoia was acquired by Smartmatic in 2005 to expand secure electronic voting capabilities, then sold to Dominion Voting Systems in 2010, after which it operated as a subsidiary until becoming inactive as a distinct entity.^[7]^[8]^[9] These developments highlighted broader challenges in electronic voting infrastructure, including vulnerabilities to tampering without verifiable paper audits, prompting ongoing debates over causal risks to election integrity despite no documented instances of large-scale exploitation in Sequoia deployments.^[10]^[6]

History

Founding and Early Development

Sequoia Voting Systems, initially operating as Sequoia Pacific Voting Systems in Hayward, California, entered the election technology market during the transition from mechanical lever machines to more automated systems in the late 20th century. The company focused on punch-card ballot systems and early optical scan tabulators, which allowed for machine-readable paper ballots to improve tabulation accuracy over hand-counting methods prevalent in many jurisdictions.^[11] In the 1980s, Sequoia was acquired by Jefferson Smurfit, an Irish printing conglomerate, reflecting the growing interest from industrial firms in secure printing and data processing technologies applicable to elections. During this period and into the 1990s, the company developed the AVC Advantage, a direct-recording electronic (DRE) voting system featuring a full-face ballot display with touch-sensitive matrix switches for voter input, aimed at providing a verifiable electronic record without paper intermediaries.^[3] This innovation addressed limitations of punch-card systems, such as voter errors in perforation, by enabling direct on-screen selection and confirmation.^[12] Early certifications for Sequoia equipment, including examinations of the AVC Advantage in states like Pennsylvania by 1994, paved the way for initial deployments. By the late 1990s, systems were adopted on a small scale in jurisdictions such as California and Colorado, driven by state efforts to replace outdated mechanical equipment with electronic alternatives that promised faster counting and better accessibility, preceding broader federal mandates.^[12] These implementations emphasized reliability in controlled environments, focusing on hardware durability and basic software integration for local election needs.^[3]

Expansion and Major Deployments

Following the controversies of the 2000 U.S. presidential election, which highlighted flaws in punch-card voting systems, Sequoia Voting Systems experienced significant growth through contracts to supply upgraded electronic voting equipment compliant with the Help America Vote Act of 2002. The company secured agreements to deploy its optical scan tabulators, such as the Optech series, and direct-recording electronic (DRE) machines, including the AVC Edge, across multiple jurisdictions.^[13]^[1] Large-scale implementations included California, where Sequoia provided DRE systems like the AVC Edge for precinct voting in counties such as San Francisco and Santa Cruz starting in 2006, supporting accessibility features for voters with disabilities and multilingual interfaces in languages including Spanish and Chinese. In Florida, Sequoia optical scan and DRE systems were utilized in various counties for elections in the mid-2000s, facilitating the transition from manual recount-prone methods to automated tabulation. Colorado saw deployments of Sequoia equipment in select jurisdictions to meet state requirements for provisional balloting and voter-verified records. These contracts contributed to Sequoia's handling of ballots in the 2004 and 2006 federal elections, where the AVC Edge system demonstrated usability advantages in independent evaluations.^[14]^[15]^[16] By 2008, Sequoia had established itself among the principal U.S. voting system providers, with systems integrated to accommodate state-specific mandates such as enhanced ballot privacy and audit capabilities, positioning it alongside Election Systems & Software and Diebold Election Systems in market presence.^[1]^[17]

Acquisition by Dominion Voting Systems

Dominion Voting Systems acquired the assets of Sequoia Voting Systems in June 2010.^[18] ^[19] The transaction, executed for an undisclosed sum, transferred key intellectual property, including software and hardware designs for Sequoia's AVC direct-recording electronic voting machines and Optech optical scan tabulation systems.^[9] This move supported Dominion's expansion in the electronic voting sector by absorbing Sequoia's established deployments.^[18] The acquired assets were integrated into Dominion's operations based in Denver, Colorado, where the company maintained its primary U.S. facilities.^[9] Sequoia, previously headquartered in Oakland, California, ceased independent operations following the deal, rendering it inactive as a standalone manufacturer.^[9] Existing contracts, such as those with municipalities like San Francisco, were assigned to Dominion, enabling seamless short-term continuity for Sequoia-branded equipment in active jurisdictions.^[19] Over the subsequent years, Dominion oversaw software updates and maintenance for legacy Sequoia systems, with many jurisdictions retaining the hardware under hybrid Sequoia-Dominion designations during the transition period.^[1] By around 2012, operational shifts included progressive rebranding and enhancements to align with Dominion's broader product ecosystem, though some Sequoia models persisted in use where replacements were not immediately pursued.^[1] This integration facilitated centralized support and certification efforts under Dominion's framework.^[20]

Products and Technology

Direct-Recording Electronic Systems

Direct-recording electronic (DRE) systems produced by Sequoia Voting Systems enable voters to select choices directly on electronic interfaces, with votes recorded and stored internally without paper ballots.^[1] These systems were designed for precinct use on election day, supporting multilingual ballots and features to prevent overvoting by alerting or blocking excess selections beyond allowable limits per contest.^[21] Sequoia's primary DRE models included the AVC Edge and AVC Advantage, each employing distinct input mechanisms while sharing capabilities for vote review prior to finalization. The AVC Edge utilized a touch-screen interface activated by insertion of a voter-specific smart card, programmed at the polling place via a card activation unit.^[22] Voters navigated the ballot on the screen, with selections recorded electronically; an audio ballot option, accessible via headphones, accommodated voters with visual impairments by reading choices aloud for independent verification and selection.^[23] Deployed in hardware configurations such as HAAT90 and HAAT100, the system supported in-precinct voting and could handle ballots from multiple precincts when configured accordingly.^[24] In contrast, the AVC Advantage featured a full-face ballot display covering the entire screen, activated by poll workers rather than voter-inserted cards, with voters using a touch-sensitive matrix of switches to indicate selections across contests.^[3] This setup allowed direct interaction with a comprehensive view of the ballot, facilitating review of all choices before confirming the vote.^[25] Post-election, results were retrieved by poll workers removing a battery-powered RAM cartridge containing the vote records from each unit.^[26] Later iterations of these DRE models, particularly after 2006, incorporated voter-verifiable paper audit trails (VVPAT) in some configurations, printing a record of selections for voter confirmation before casting, though this was not standard across all deployments.^[23] Both systems were capable of processing over 10,000 ballots per machine under typical usage, depending on memory allocation and ballot complexity.^[27]

Optical Scan and Tabulation Systems

Sequoia Voting Systems produced the Optech series of optical scan tabulation systems, which process hand-marked paper ballots through optical recognition technology to detect and count voter selections. These hardware units include precinct-based scanners for on-site tabulation and central-count models for high-volume processing after election day.^[4]^[28] The Optech Insight functions as a precinct scanner, reading ballots at polling places where voters manually mark paper forms, typically in one to three columns. It succeeded the Optech III-P Eagle model, which featured a secure ballot box for holding ballots prior to scanning and a detachable scanning head for tabulation. Both models support direct precinct counting, reducing delays in preliminary results while maintaining physical ballots for verification.^[4]^[29]^[30] For central tabulation, the Optech 400-C provides high-capacity scanning in election offices, handling ballots aggregated from multiple precincts or absentee votes. This model accommodates larger batches in controlled environments, aiding jurisdictions with substantial mail-in or provisional ballot volumes.^[28] Optech systems pair with hand-marked paper ballots to form hybrid setups, combining optical tabulation with tangible records that permit manual recounts and audits. Such configurations met requirements in states mandating paper-based verifiable voting, enhancing options for jurisdictions blending optical scan with other modalities like direct-recording electronic devices.^[31]^[4]

Software Architecture and Integration Features

The WinEDS (Windows Election Data System) served as the primary election management system (EMS) for Sequoia Voting Systems, handling ballot preparation, vote tabulation, and election reporting functions. Developed to operate on Microsoft Windows platforms with SQL Server backend, WinEDS enabled election officials to input races, ballot measures, and machine serial numbers to generate customized ballot definitions loaded onto memory cartridges or packs for deployment. This core software facilitated central count operations by consolidating results from diverse precinct-level inputs, producing exportable tally reports in formats compatible with Microsoft Office applications such as Word and Excel.^[27] WinEDS incorporated customization capabilities to align with varying state and local election laws, including support for provisional ballot handling where poll workers recorded unique voter card numbers on direct-recording electronic devices. The system allowed role-based access control with up to 10 predefined user roles—ranging from full administrator privileges to limited tally worker functions—enabling jurisdiction-specific workflows for tasks like real-time result viewing and final reporting. Interoperability extended to integrating data from multiple voting modalities, such as consolidating tabulations from optical scanners and electronic pollbooks without requiring uniform hardware setups.^[27] Data transfer in WinEDS emphasized offline operations to support air-gapped environments, relying on removable media like PCMCIA cards, USB drives, and proprietary memory packs for moving ballot definitions to precincts and returning vote tallies to central servers. This network-optional architecture permitted isolated workstation setups or optional client-server configurations for larger jurisdictions, minimizing dependencies on live connections while using tamper-evident seals and checksums to maintain data integrity during physical transport. Compliance with federal standards, including the 2002 Voting System Standards (VSS) and early Voluntary Voting System Guidelines (VVSG), was achieved through NASED qualification under identifier N-1, ensuring baseline functionality for secure election administration.^[27]^[23]

Security and Technical Evaluations

Independent Vulnerability Assessments

In 2008, researchers at Princeton University, led by Andrew Appel, conducted an independent security analysis of the Sequoia AVC Advantage direct-recording electronic (DRE) voting machine as part of a court-ordered examination in New Jersey. The study, which involved physical access to hardware and review of source code, identified multiple vulnerabilities enabling rapid vote manipulation. Attackers with brief physical access could reprogram memory cards to install malware that alters votes without detection, achieving this in under one minute using off-the-shelf tools; the system lacked sufficient protections against such tampering, including weak authentication for memory card insertion and absence of verifiable audit trails for firmware changes.^[32]^[33] California's 2007 Top-to-Bottom Review (TTBR), initiated by Secretary of State Debra Bowen, included third-party source code and documentation audits of Sequoia systems such as the AVC Edge DRE and Optech optical scanners. Teams from firms like Science Applications International Corporation (SAIC) and independent experts uncovered risks in smartcard voter activation, where counterfeit cards could enable unauthorized voting sessions due to inadequate encryption and validation protocols. Additional flaws involved insufficient cryptographic protections for vote data transmission between precinct tabulators and central servers, permitting interception or substitution attacks, as well as vulnerabilities in firmware update processes that allowed undetectable modifications with physical access. These empirical tests, involving simulated attacks on actual code and hardware, prompted recommendations for physical seals, enhanced logging, and encryption upgrades, though reviewers noted persistent risks from legacy design limitations.^[27]^[34] In 2006, Alameda County, California, commissioned a vulnerability assessment of its Sequoia systems, reviewed by computer science expert Douglas W. Jones of the University of Iowa. The report highlighted exploitable weaknesses in pollbook integration and ballot definition files, where mismatches between electronic pollbooks and voting machine configurations could enable unauthorized ballot access or miscounts through manipulated data files accessible via standard interfaces. Jones' analysis emphasized that while these flaws were demonstrable in controlled tests—such as altering vote tallies via USB-like ports without robust access controls—no evidence emerged of large-scale real-world exploitation, attributing potential safeguards to procedural rather than technical mitigations like chain-of-custody protocols.^[35]

Certifications, Audits, and Remediation Efforts

Sequoia Voting Systems' AVC Edge II direct-recording electronic (DRE) model received federal certification from the U.S. Election Assistance Commission (EAC) as part of the agency's initial wave of approvals under the Help America Vote Act, with testing encompassing source code audits, functional verification, and simulated penetration attempts to validate security controls.^[36] These certifications, spanning 2007 to 2009 for compatible configurations, required vendors to address identified deficiencies through iterative reviews, including hardware and software integrity checks, prior to final endorsement for interstate deployment.^[1] Re-certifications incorporated remedial engineering change orders (ECOs) to rectify prior flaws, such as those in ballot activation and vote recording modules, ensuring compliance with Voluntary Voting System Guidelines (VVSG) standards for accuracy and tamper resistance.^[37] At the state level, California Secretary of State Debra Bowen conducted a top-to-bottom review in 2007, leading to the decertification of Sequoia systems—including the AVC Edge I/II DREs and Optech optical scanners—on August 3, 2007, after independent testing revealed vulnerabilities like unauthorized firmware alterations and insufficient access controls.^[38] Conditional recertification followed for use in the 2008 elections, contingent on vendor-implemented safeguards such as mandatory logic and accuracy testing, parallel manual audits, and enhanced procedural controls to mitigate risks identified in source code and physical security assessments.^[39] Remediation efforts specifically addressed access vulnerabilities by requiring poll worker verification protocols and, in some configurations, integration of tamper-evident seals on memory cards and device ports to detect unauthorized tampering, alongside optional voter-verified paper audit trails (VVPAT) for partial ballot verification in select jurisdictions.^[40] These measures were validated through re-testing by accredited labs, restoring conditional approval for over a dozen counties while mandating ongoing compliance reporting.^[41] Following Dominion Voting Systems' acquisition of Sequoia assets in June 2010, updates to legacy systems included the release of WinEDS 4.0 election management software, which underwent Voting System Test Laboratory (VSTL) certification testing in 2010, resolving over 9,000 code discrepancies and functional defects via source modifications, regression testing, and hardware ECOs for components like the Edge II and Optech scanners.^[20] This version supported improved audit logs and ballot handling, aligning with federal standards for hardware configurations inherited from Sequoia, including firmware validations to patch known initialization and data export vulnerabilities.^[20] Subsequent integrations under Dominion's Democracy Suite framework phased in Unity reporting software for enhanced post-election auditability, replacing elements of WinEDS with centralized tabulation modules that incorporated cryptographic hashes and chain-of-custody logging to address legacy interoperability issues.^[9] These efforts focused on maintaining certification for deployed Sequoia-derived hardware through vendor-submitted patches, though full transitions to newer Dominion platforms varied by state adoption timelines.

Empirical Evidence on Reliability and Fraud Claims

Empirical assessments of Sequoia Voting Systems' performance, drawn from state-conducted post-election audits and recounts, indicate high reliability in tabulation accuracy when paper records were available for verification, particularly for optical scan models like the Optech series. In jurisdictions employing these systems post-2004, such as California counties prior to partial decertification, audits revealed minimal discrepancies, often attributable to human handling or calibration rather than systemic machine failure, with no documented instances of outcome-altering vote flipping.^[27] Investigations spanning 2006–2008, including New Jersey's examination of AVC Edge DRE machines following primary election anomalies, identified procedural lapses like improper ballot insertion leading to rejections but found no causal evidence linking these to fraudulent alterations or shifted results.^[42] Despite acknowledged software vulnerabilities in DRE configurations without voter-verified paper audit trails (VVPAT), comprehensive probes by state officials and independent evaluators uncovered no empirical proof of large-scale exploitation impacting election integrity during Sequoia's deployment era. For example, usability studies highlighted error rates from voter-machine interactions exceeding 2% in some DRE setups due to interface design flaws, yet these were isolated and correctable via recounts where paper backups existed, countering narratives amplified by vulnerability demonstrations without real-world causal ties to fraud.^[43]^[44] Optical scan systems demonstrated superior verifiability over pure DRE models, as paper ballots enabled hand audits confirming machine tallies with discrepancies typically under 0.5% in tested scenarios, underscoring the limitations of "black box" DREs lacking auditable records.^[31]^[45] This comparative advantage aligns with broader findings that paper-backed tabulation supports robust causal validation of results, while DRE audit rates suffer absent VVPAT, though no Sequoia-specific election has been invalidated on fraud grounds despite scrutiny.^[46]

Controversies and Legal Challenges

California Certification Disputes

In April 2006, California's Office of Voting Systems and Technology Assessment (OVSTA) initiated a source code review of certified voting systems, including Sequoia's AVC Edge direct-recording electronic (DRE) and Opteck optical scan systems, revealing potential security weaknesses such as inadequate encryption and access controls.^[47] These findings, combined with prior demonstrations of vulnerabilities in similar systems, prompted heightened scrutiny under interim Secretary of State Bruce Shelton, though no immediate decertification occurred.^[41] Upon assuming office in January 2007, Secretary of State Debra Bowen launched a comprehensive top-to-bottom review on January 8, 2007, involving independent experts from the University of California who conducted source code audits and red-team penetration testing.^[41] The review identified unresolved issues in Sequoia's WinEDS 3.1.012 software and AVC Edge hardware, including weak default passwords, insufficient tamper detection, and exploitable firmware flaws that could allow unauthorized vote alteration during demos simulating brief physical access.^[10] On August 3, 2007, Bowen decertified Sequoia's DRE systems entirely while conditionally recertifying optical scan components, citing regulatory requirements for demonstrable fixes to these empirically identified, addressable vulnerabilities rather than inherent design irreparability.^[48]^[10] Procedural disputes arose as Sequoia and affected counties contested the scope and immediacy of the decertification, arguing that the review's adversarial testing exaggerated real-world risks and that prior federal certifications validated the systems' baseline integrity.^[49] No major state-level lawsuits directly challenging the decertification were filed, but vendor correspondence and county feedback highlighted bureaucratic hurdles, including delays in approving remediation plans and enhanced protocols like mandatory manual audits and tamper-evident seals.^[39] Empirical retesting post-review confirmed that flaws, such as modifiable ballot definitions via accessible administrator functions, could be mitigated through software patches and procedural safeguards, leading to partial reinstatement for the February 2008 primaries under strict conditions.^[48]^[10] By late 2007, Sequoia submitted compliance documentation addressing access control weaknesses and demo-replicated exploits, enabling conditional use of optical systems statewide for the 2008 general election after OVSTA verification.^[10] This resolution underscored regulatory emphasis on verifiable remediation over outright bans, with systems restored following 30- to 60-day vendor timelines for fixes, though DRE deployment remained limited to accessibility needs under HAVA mandates, reflecting prolonged oversight rather than technological obsolescence.^[48]^[41]

Researcher Conflicts and Legal Threats

In March 2008, Sequoia Voting Systems issued legal threats to Princeton University professors Edward Felten and Andrew Appel, warning against the publication of a planned security analysis of Sequoia AVC Edge touchscreen voting machines used in New Jersey's Union County.^[50]^[51] The company argued that such disclosure would breach intellectual property agreements and potentially expose proprietary software vulnerabilities, framing the action as necessary to safeguard trade secrets essential for maintaining competitive innovation in voting technology development.^[52] Critics, including Felten, contended that the threats exemplified efforts to suppress independent academic scrutiny, prioritizing vendor secrecy over public transparency in election infrastructure.^[53] These threats prompted New Jersey election officials to cancel the independent audit, citing risks of litigation from Sequoia, which effectively halted the researchers' work on that specific deployment despite prior agreements for access.^[52] Sequoia maintained that the machines had undergone federal certification and that public vulnerability disclosures could invite exploitation without context from controlled testing environments, potentially undermining confidence in certified systems without evidence of real-world compromise.^[50] In parallel, a related court order in June 2008 by New Jersey Superior Court Judge Linda Feinberg suppressed a separate expert report on Sequoia AVC Advantage machine security, following Sequoia's request to protect source code examined during litigation, though the decision was criticized for limiting verifiable assessments of potential risks.^[54] Earlier tensions echoed patterns seen in the broader electronic voting industry, where Sequoia and peers issued cease-and-desist notices amid leaked analyses of source code flaws, analogous to 2003-2004 disputes involving Diebold systems that influenced Berkeley researchers' examinations of systemic weaknesses like weak encryption and unauthorized access paths.^[55] Despite these conflicts, no lawsuits from Sequoia against researchers succeeded in fully preventing dissemination of findings; subsequent reports and demonstrations highlighted exploitable vulnerabilities in lab settings—such as malware insertion or vote alteration via physical access—but empirical data from audited elections showed no confirmed instances of fraud exploiting these issues in Sequoia deployments.^[56]^[52] The incidents underscored a core tension between intellectual property protections, which incentivize private investment in voting hardware amid limited public funding, and the need for rigorous, independent verification to ensure electoral integrity, ultimately contributing to policy reforms under the Help America Vote Act (HAVA) that mandated enhanced testing protocols without evidence of widespread suppression derailing security advancements.^[57]^[46]

Associations with Smartmatic and Ownership Scrutiny

In March 2005, Smartmatic, a voting technology company founded in 2000 by Venezuelan nationals and initially headquartered in Florida with operations tied to Venezuela's electoral system under President Hugo Chávez, announced its acquisition of Sequoia Voting Systems to expand into the U.S. market.^[58] The deal positioned Smartmatic as the parent entity, raising immediate concerns over potential foreign influence given Smartmatic's origins and its role in securing Venezuela's 2004 recall referendum contract, which critics alleged favored the Chávez regime despite lacking direct evidence of vote manipulation.^[59] U.S. officials, including those from the Department of Homeland Security, scrutinized the ownership for national security risks, prompting Sequoia to voluntarily request a federal investigation in October 2006 to address rumors of undisclosed ties to the Venezuelan government.^[60] The Committee on Foreign Investment in the United States (CFIUS) launched a review in 2006, focusing on whether Smartmatic's Venezuelan connections could enable undue influence over U.S. election infrastructure, amid broader congressional attention to electronic voting vulnerabilities post-2004 election irregularities.^[59] No empirical evidence emerged of backdoor control or technology transfers compromising Sequoia's systems, but regulatory hurdles intensified due to CFIUS's mandate to mitigate foreign ownership risks in critical sectors.^[61] To resolve the probe, Smartmatic withdrew its CFIUS filing and divested Sequoia in December 2006, selling it to a group of U.S.-based private investors including Sequoia's executive management team, thereby transferring full ownership to American entities.^[62] Subsequent filings and audits confirmed the divestiture eliminated any residual Smartmatic stake, with chain-of-custody records showing no ongoing foreign equity or operational links by 2007, countering speculative claims of hidden Venezuelan leverage that persisted in media narratives despite lacking verifiable causal pathways.^[61] This episode highlighted ownership transparency as a safeguard, prioritizing diversified U.S. control over unproven interference theories, though mainstream reporting often amplified unverified Chávez connections without equivalent scrutiny of domestic vendors' histories.^[58]

Post-Acquisition Integration Issues

Following the June 2010 acquisition of Sequoia Voting Systems' assets by Dominion Voting Systems, integration efforts focused on maintaining operational continuity for existing deployments while transitioning software components. Dominion supported legacy Sequoia hardware, including Edge series optical scanners, through updated certifications such as the 2011 federal Voting System Standards hardware test report for the Edge2Plus model paired with WinEDS election management software. This approach allowed jurisdictions in approximately 300 locations across 16 states to continue using Sequoia equipment without immediate replacement, though software migrations from Sequoia's WinEDS to Dominion's Democracy Suite—incorporating Unity components for ballot design and tabulation—were required for full compatibility in many cases.^[63] Certification delays arose in some states during the 2010–2012 period as Dominion sought approvals for hybrid configurations combining Sequoia hardware with its proprietary software, prompting certain counties to extend WinEDS usage temporarily. Legacy intellectual property disputes, including Avante International Technology's patent infringement claims against Sequoia over optical scan technology, were resolved prior to the acquisition's full effects, with a federal jury invalidating Avante's remaining patents in February 2009, thereby clearing paths for Dominion to assume contracts without ongoing litigation encumbrances.^[64] U.S. elections from 2010 to 2014, including midterm cycles, reported no widespread disruptions linked to the integration, with available records indicating procedural lapses—such as configuration errors or poll worker training gaps—rather than inherent flaws in the consolidated codebases.^[65] However, the shift to Dominion's unified proprietary architecture drew critiques for potentially diminishing transparency, as modular legacy systems like Sequoia's allowed more segmented audits, whereas consolidated environments limited granular source code scrutiny by independent evaluators absent vendor cooperation.^[66] State post-election audits during this era, such as those in California and Colorado, emphasized human-factor issues over systemic software vulnerabilities in transitioned systems.

Legacy and Current Status

Ongoing Use of Legacy Systems

Following the 2010 acquisition of Sequoia Voting Systems by Dominion Voting Systems—which was sold to Liberty Vote in October 2025—certain legacy Sequoia Optech optical scanners, such as the Optech 400-C and Optech Insight models, remain in use for ballot tabulation in U.S. elections.^[67]^[28]^[4] These central-count and precinct scanners process paper ballots, supporting hybrid systems that pair machine tabulation with voter-verifiable paper records to facilitate post-election risk-limiting audits (RLAs).^[28] By 2025, such equipment persists in jurisdictions across roughly 10 states, including multiple counties in Pennsylvania, where full phase-outs have been deferred amid competing priorities for newer Democracy Suite components.^[68] Federal funding under the Help America Vote Act (HAVA) and subsequent grants has supported partial upgrades since 2018, but disbursements have lagged, leaving many locales reliant on pre-2010 hardware certified for continued operation through routine testing.^[69]^[70] This persistence reduces dependence on direct-recording electronic (DRE) machines, as paper ballots scanned by Optech systems enable manual recounts and RLAs, which have confirmed results in states like Georgia and Colorado without detecting systemic hardware-induced shifts.^[69] Empirical analyses of 2020–2024 elections indicate undervote and overvote rates for optical scan systems, including Sequoia-derived models, typically under 0.5% in presidential races, with discrepancies traceable to voter choices (e.g., straight-ticket undervotes) or poll worker handling rather than tabulator malfunctions.^[71] In rural jurisdictions, where Sequoia Optech units are common due to their durability in low-volume settings, modernization faces cost barriers exceeding $100 million nationwide for full replacements, compounded by sparse populations that amplify per-voter expenses.^[72] Verifiable disruptions, such as miscalibrated scanners in isolated 2022 local races, have stemmed from operator errors like improper ballot insertion, not inherent design flaws or intentional tampering, as audits and court reviews have consistently affirmed.^[72]^[73]

Influence on Modern Voting Technology Standards

Sequoia Voting Systems' direct recording electronic (DRE) machines, such as the AVC Edge and AVC Advantage, faced significant security vulnerabilities exposed in independent analyses, including the 2007 California Top-to-Bottom Review, which identified flaws like weak encryption and potential for unauthorized code insertion, prompting widespread decertification in the state on October 25, 2007.^[10]^[74] These empirical demonstrations of DRE risks, corroborated by Princeton researchers' 2008 examination of the AVC Advantage revealing exploitable memory cards and absent audit logs, accelerated the transition from unverifiable electronic-only systems to those with voter-verified paper records.^[32] This shift aligned with evolving Election Assistance Commission (EAC) Voluntary Voting System Guidelines (VVSG), where the 2005 standards permitted DREs without paper trails, but subsequent revisions—driven by post-2006 state-level mandates—influenced the 2015 VVSG's requirement for auditable paper records to enable risk-limiting audits, reducing reliance on proprietary software trust.^[75] The company's controversies contributed causally to the dominance of optical scan systems, which by 2015 accounted for over 70% of U.S. registered voters per Verified Voting data, up from DRE-heavy configurations pre-2006, as states adopted secure tabulation protocols emphasizing hand-marked paper ballots for empirical verification over machine-dependent outcomes.^[1] In 28 states by 2020, these protocols incorporated central-count optical scanning with post-election audits, informed by lessons from Sequoia's DRE failures that highlighted procedural risks like unrecoverable errors without physical records, prioritizing observable evidence of voter intent amid debates on tampering feasibility.^[76] Such reforms stemmed from bipartisan recognition that DRE opacity amplified unfounded distrust, fostering standards for defensible integrity through testable, non-proprietary elements rather than vendor assurances. Sequoia's proprietary code exposures further propelled advocacy for open-source alternatives, as detailed in 2006-2008 analyses showing how closed systems impeded independent verification, inspiring initiatives like the OSDV project to develop auditable software free from vendor lock-in.^[77] This broader legacy underscored the need for transparent, empirically grounded standards against both operational lapses—evident in Sequoia's certification disputes—and narratives of systemic fraud lacking forensic support, reinforcing EAC-endorsed principles of software independence where outcomes derive from inspectable records, not opaque algorithms.^[78]

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Summary of each segment:
[21]
[PDF] SEQUOIA AVC EDGE TOUCH SCREEN VOTING MACHINE
The AVC Edge will not allow voters to over-vote a ballot, thereby reducing the number of unintentionally spoiled ballots. After the polls close, the system ...
[22]
[PDF] Sequoia Voting Systems AVC Edge Pollworker Manual - EPIC
Included with the. AVC Edge® is a card activation unit. This unit activates the voter card, which allows the voter to cast a ballot. Once the voting systems are ...Missing: specifications | Show results with:specifications
[23]
[PDF] Untitled - Washington Secretary of State
The. AVC Edge also provides a voter verified paper audit trail (VVPAT) and an audio ballot with headphones for voters with visual disabilities The AVC Edge also ...Missing: specifications | Show results with:specifications
[24]
[PDF] Dominion Voting System for Sequoia WinEDS Edge2Plus Model ...
Nov 18, 2011 · Test Manager: Date: 11/18/2011. Page 2. DVS Sequoia WinEDS Edge2Plus Model 300, HAAT90, HAAT100. DVS Sequoia WinEDS _Hardware. Test Report Rev ...Missing: Direct | Show results with:Direct
[25]
[PDF] Guidebook For the New AVC (Advantage Voting Machine) Clerk's ...
familiarity and speed of the full ballot display. Voters are provided with the accuracy and security of electronic voting while maintaining the all-inclusive.
[26]
[PDF] Sequoia Voting Systems — AVC Advantage - EFF
Oct 29, 2006 · When polls are closed, poll workers remove a cartridge of battery-powered RAM that contains the vote records from each machine. These cartridges ...Missing: development | Show results with:development
[27]
[PDF] Review of the Documentation of the Sequoia Voting System - CA.gov
Jul 20, 2007 · The AVC Edge is primarily used to to record votes on election day in precincts. ... 14 It is used by election officials to count ballots in ...
[28]
Voting Equipment Database – Sequoia Voting Systems Optech 400C
The Optech 400-C is a high capacity scanner used by election officials to count ballots in a central location.
[29]
[PDF] Optech Insight: Voting System Fact Sheet - Epic.org
The Optech Insight® is the successor to the popular Optech III-P Eagle® optical scan voting machine. Voters are provided a 1, 2 or 3 column ballot which ...
[30]
Optech IIIP-Eagle - Voting Equipment Database
The Optech IIIP Eagle consists of two major parts, the ballot box (blue) and the head (white). The box is just that, a secure container for the ballots the ...
[31]
Brennan Center Overview of Voting Equipment
May 31, 2018 · Optical/Digital Scan Paper Ballot Systems require voters to mark paper ballots, which are subsequently tabulated by scanning devices (“scanners” ...
[32]
[PDF] Insecurities and Inaccuracies of the Sequoia AVC Advantage 9.00H ...
Oct 17, 2008 · We have demonstrated that this “hack” takes just 7 minutes to perform. The fraudulent firmware can steal votes during an election, just as its ...<|control11|><|separator|>
[33]
[PDF] The New Jersey Voting-machine Lawsuit and the AVC Advantage ...
When voter-verified paper ballots not in place by January 2008, Judge Linda Feinberg ordered a trial to determine whether it is constitutional to use paperless ...
[34]
[PDF] Source Code Review of the Sequoia Voting System - Chris Karlof
Jul 20, 2007 · An individual with even brief access to polling station hardware can tamper with installed firmware in a way that causes votes and paper trails.<|separator|>
[35]
Douglas W. Jones on Sequoia - University of Iowa
On October 4, Alameda County California released a report, Sequoia Voting Systems Vulnerability Assessment and Practical Countermeasure Development for ...
[36]
[PDF] Overview of Voting Systems Testing and Certification in the United ...
The Help America Vote Act (HAVA) of 2002 created the U.S. Election Assistance. Commission (EAC) and mandated that the EAC provide certification,.
[37]
[PDF] commonwealth of pennsylvania
The primary purpose of the re-examination is to confirm that the Dominion Voting Systems Edge Model. 2 DRE Voting System and WinEDS 3.1.012 meets the ...
[38]
[PDF] debra bowen secretary of state - CA.gov
Oct 2, 2007 · out of my August 3 decertification/recertification order with regard to the Sequoia voting system. used by several California counties, ...
[39]
E-voting machines decertified – East Bay Times
Bowen decertified machines made by Diebold and Sequoia but said they could regain certification if they meet several new conditions. She also added security ...
[40]
California Decertifies Voting Machines, Conditions Applied for Use
Jul 27, 2010 · The Diebold, Hart InterCivic and Sequoia optical scan systems were all decertified and recertified, and will be required to adopt increased ...
[41]
Top-to-Bottom Review - California Secretary of State
Secretary of State Debra Bowen conducted a top-to-bottom review in 2007 of many of the voting systems certified for use in California.
[42]
Evidence presented in New Jersey e-voting discrepancies - CNET
Apr 29, 2008 · Printed voting audits may help to detect fraud--unless the vendor offers a good excuse.
[43]
New Study Shows Massive Error Rates In E-Voting Machines
Mar 21, 2008 · These weren't errors due to software problems, but usability problems, where the design of the system resulted in people voting for a candidate ...
[44]
Report on the Sequioa AVC Advantage - CITP Blog
Oct 17, 2008 · This year the Court ordered the State of New Jersey and Sequoia Voting Systems to provide voting machines and their source code for me to ...Missing: controversies | Show results with:controversies<|control11|><|separator|>
[45]
Accessibility and Auditability in Electronic Voting
May 17, 2004 · May 2004 Background Nearly one-third of American voters – over 50 million people – live in districts that will use electronic voting ...
[46]
Resolution on Electronic Voting
The cornerstone of this campaign was a demand that all direct-recording electronic voting machines be equipped with a voter-verified paper trail.
[47]
[PDF] California Secretary of State - Consultant's Report on - NJ.gov
Feb 24, 2006 · certification are within the duties of the OVSTA and are included in their report. Page 2. Consultant's report on Sequoia Voting Systems.Missing: recertification 2007
[48]
[PDF] Secretary of State Debra Bowen Moves to Strengthen Voter ... - CA.gov
Aug 3, 2007 · ... election auditing procedures. The Diebold, Hart InterCivic and Sequoia optical scan systems were all decertified and recertified, and will ...
[49]
California Restricts Voting Machines - The New York Times
Aug 5, 2007 · California's top election official decertified three voting systems but said she would let counties use the machines in February's ...
[50]
Sequoia warns Princeton professors over e-voting analysis - CNET
Mar 18, 2008 · ... voting machine manufacturers in the United States, is threatening Felten too. ... Sequoia also has threatened to sue New Jersey's Union County.
[51]
Sequoia Voting Systems Threatens Princeton Computer Scientists ...
Mar 17, 2008 · Sequoia Voting Systems has sent a legal threat to Princeton University computer science professors Ed Felten and Andrew Appel warning them ...
[52]
E-voting vendor blocks security audit with legal threats - Ars Technica
Mar 20, 2008 · New Jersey election officials have scrapped plans for an independent audit of Union County voting machines because the vendor, Sequoia Voting Systems, says ...Missing: conflicts | Show results with:conflicts
[53]
More On Sequoia's Legal Threats Against Ed Felten - Techdirt.
Mar 19, 2008 · Yesterday we covered the threats that e-voting firm Sequoia had sent to Ed Felten and to various officials in New Jersey.
[54]
Judge Suppresses Report on Voting Machine Security - CITP Blog
Oct 1, 2008 · New Jersey mostly uses Sequoia AVC Advantage direct-recording electronic (DRE) models. None of those DREs can be audited: they do not produce a ...
[55]
Sequoia Acknowledges E-voting Problems
Nov 9, 2004 · One of the most serious problems with touchscreen voting machines reported on Election Day was the misrecording of votes, sometimes called ...Missing: controversies | Show results with:controversies
[56]
In Industry First, Voting Machine Company to Publish Source Code
a ...Missing: origins SIAC
[57]
Princeton Scientists Sue Over Squelched Research
Jun 6, 2001 · ... Princeton scientist Edward Felten. ... Princeton professor a letter threatening legal liability if the scientist published his results.
[58]
Ballot Firm's Ties to Venezuela Criticized - Los Angeles Times
Jun 3, 2006 · Some American officials worry that Sequoia Voting Systems' foreign link could compromise the integrity of the U.S. election process.
[59]
U.S. Investigates Voting Machines' Venezuela Ties
Oct 29, 2006 · Committee on Foreign Investment in the United States is investigating last year's takeover of Sequoia Voting Systems by Venezuelan software ...Missing: 2000s | Show results with:2000s
[60]
Voting machine firm seeks probe into rumors - NBC News
Oct 30, 2006 · ... investigation to dispel what it called baseless rumors of ties to Venezuelan President Hugo Chavez. Sequoia Voting Systems Inc. said it ...
[61]
U.S. Drops Inquiry of Voting Machine Firm - The Washington Post
Dec 23, 2006 · A federal investigation into possible ties between a U.S. maker of electronic voting machines and the Venezuelan government has ended after ...
[62]
https://www.wsj.com/articles/SB116674617078557263
[63]
Dominion buys Sequoia assets, including 'all' software
Jun 4, 2010 · Dominion Voting Systems announces that it has acquired the assets of Colorado-based Sequoia Voting Systems, with operations in nearly 300 jurisdictions in 16 ...
[64]
Avante's Voting Machine Patents Declared Invalid - Law360
Feb 18, 2009 · A federal jury has invalidated the remaining two patents in a lawsuit brought by Avante International Technology Corp. over certain optical ...
[65]
[PDF] Voting system failures: a database solution
The Brennan Center for Justice at New York University School of Law is a non-partisan public policy and law institute that focuses on fundamental issues of ...
[66]
[PDF] The case for Georgia to Allow Access to the Source Code of ...
Mar 27, 2023 · 1 Electronic voting offers many advantages over paper ballots, but with these comes a serious risk to the integrity of our elections.2 Voting ...
[67]
Dominion Voting Systems sold to company run by ... - ABC News
Oct 9, 2025 · Dominion Voting Systems, which sued Fox over its reporting on the 2020 election, has been sold to a seemingly new election company run by a ...
[68]
https://www.penncapital-star.com/election-2025/what-does-the-sale-of-dominion-voting-systems-mean-for-now-not-much/
[69]
Costs for Replacing Voting Equipment in 2024
Feb 7, 2024 · While states continue to make progress in updating their voting equipment, additional funding for election security is needed.
[70]
Federal Funding for American Elections - Issue One
Jul 22, 2024 · This analysis highlights how local and state election officials have utilized their HAVA election security grant funds to date.
[71]
[PDF] 2024 General Election Summary Report
Feb 15, 2025 · Specifically, the report covers: 1) the post-election voting system audit results (Part I), 2) the overvotes and undervotes data report for the ...Missing: Sequoia | Show results with:Sequoia
[72]
Voting Machines at Risk in 2022 | Brennan Center for Justice
Mar 1, 2022 · A joint analysis from the Brennan Center and Verified Voting finds that replacing aging voting equipment will cost hundreds of millions of dollars.
[73]
Local Election Officials Convene in Washington to Urge $400 Million ...
Oct 1, 2025 · WASHINGTON, DC – More than 80 local election officials from across the country gathered in the nation's capital this week to call on ...
[74]
Following Blistering Review That Highlighted Widespread ...
Aug 4, 2007 · Following Blistering Review That Highlighted Widespread Vulnerabilities, California Decertifies Flawed Election Equipment. DEEPLINKS BLOG. By ...
[75]
[PDF] The New Jersey Voting-machine Lawsuit and the AVC Advantage ...
In October 2004 a group of public-interest plaintiffs, represented by Professor Penny Venetis of the Rutgers Law. School, sued the State of New Jersey (in NJ ...
[76]
Optical scanning machines are susceptible to miscounting U.S. voter ...
Nov 1, 2020 · According to a Pew Research Center analysis, nearly half of registered U.S. voters live in jurisdictions that use optical scan machines as ...
[77]
Open Source Voting Machine Reborn After 6-Year War With IRS
Aug 6, 2013 · In 2006, Gregory Miller and John Sebes hatched a plan to rescue democracy. At the time, the U.S. was pumping nearly $4 billion into new ...
[78]
[PDF] Software Independence Revisited
The most prominent example in this category is the optical scan voting system used by most U.S. voters since the 2006 elections. The paper ballot is voter- ...