Techbest – Top Tech Reviews In Australia
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Skullcandy Dime 3 in-Ear Wireless Headphones, 20 Hours Battery Life, Micro, Compatible with iPhone, Android and Bluetooth Devices – Black
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In a remarkable exhibition of advancement, Tesla has unveiled two new videos highlighting the most recent version of its humanoid robot, Optimus. The clips feature the robot executing a sophisticated dance routine with unmatched fluidity, velocity, and poise—all performed at real-time speed with no video enhancement. This signifies a significant advancement in humanoid robotics and cements Tesla’s status as a pioneer in this swiftly evolving sector.
While showcasing a robot through dance may seem playful, this exhibition has a more technical significance. Dancing involves complex motor skills that necessitate precise timing, overall body coordination, and dynamic stability—qualities that are vital for practical applications, such as warehouse management, caregiving duties, and mobility support. By successfully executing a dance routine, Optimus demonstrates its ability to perform highly coordinated tasks in unpredictable environments.
Optimus displays synchronized multi-joint coordination that closely resembles human movement more than any previous models. Observers remarked on the robot’s simultaneous coordination of ankles, knees, hips, shoulders, arms, and hands—performed with a natural elegance and mechanical accuracy that establishes a new standard in humanoid robotics.
One of the most striking features is Optimus’s range of motion. With limbs extended and performing one-legged balance routines, the robot’s physical skills surpass mere factory functions. These feats in motion suggest that the robot may soon be equipped for dynamic settings where flexibility and adaptability are essential.
In earlier Tesla videos, movements were often presented at speeds of up to 3x to illustrate desired performance levels. This time, the entire routine was showcased in real-time speed (1x), which captivated viewers. The robot executed quick foot movements, leaps, and stable landings—exhibiting an athleticism that implies it may one day be capable of running or sprinting. Tesla’s initial speed target for Optimus was 5 mph (around 8 km/h), and now, that ambition appears not only feasible but potentially understated.
Perhaps the most revolutionary element of this update is Optimus’s learning process. Tesla engineers disclosed that the robot was trained entirely in simulation employing “zero-shot” learning—meaning there was no physical training or corrections during the learning process. Instead, Tesla supplied extensive online dance video content to an AI model, which then devised executable instructions. These were uploaded to the robot using the same HW4 hardware framework found in Tesla vehicles.
This method eliminates the necessity for teleoperators or hands-on guidance, significantly shortening the time and resources required to train Optimus for new functions. Essentially, Tesla has discovered how to rapidly impart new skills to robots through simulated environments and data-driven AI.
While the dance demonstration is a technical wonder, the real-world possibilities are even more fascinating. Tesla envisions Optimus assisting in assembly lines, distribution centers, elderly care, and even domestic environments. The capability to swiftly train robots for specific tasks—whether it involves unloading pallets or gathering items from shelves—means that sectors across Australia could soon integrate humanoid robots into everyday operations.
Tesla is set to roll out its Full Self-Driving (FSD) unsupervised robotaxi service in Texas, with initial rides being provided through Model Ys. The futuristic Cybercab, a fully autonomous vehicle devoid of pedals or a steering mechanism, is anticipated to launch in late 2025 or early 2026. This creates the opportunity to incorporate Optimus into the robotaxi framework and Tesla’s freight trucks.
Picture Optimus robots emerging from a Tesla Semi, unloading a Cybercab, greeting crowds, and performing coordinated tasks such as changing a tire—all without human intervention. If Tesla can realize this vision, it could transform logistics, customer experience, and mobility on an international scale.
Elon Musk has confirmed that numerous Optimus robots are currently navigating Tesla’s Palo Alto lab autonomously, charging themselves when necessary and operating independently of human control. This level of autonomy indicates imminent deployment in real-world contexts, where Optimus could work continually and independently.
The latest Tesla Optimus demonstration transcends mere spectacle—it exemplifies how far AI-enhanced robotics have advanced. With real-time speed, human-like motion, and superior zero-shot training, Optimus is nearer than ever to entering active service. Whether in warehouses, homes, or supporting autonomous vehicles, this robot is no longer a concept of science fiction—it has become a reality, and it’s approaching a workplace near you.
Dancing involves complete bodily coordination, balance, and timing—skills that directly apply to tasks in logistics, manufacturing, and customer interaction. It’s an effective method to demonstrate the robot’s dexterity and control.
Zero-shot learning enables the robot to learn tasks entirely through simulation, bypassing real-world trial and error. This greatly reduces training duration and allows for quick deployment in diverse tasks across industries.
Yes, Elon Musk confirmed that Optimus robots already function autonomously in Tesla’s labs around the clock, including self-charging and navigation—demonstrating strong readiness for commercial deployment.
Optimus operates on Tesla’s HW4 platform, the same technology utilized in newer Tesla vehicles to support Full Self-Driving capabilities. This ensures compatibility and effective on-device processing.
The target maximum speed is 5 mph (approximately 8 km/h). Based on the recent footage, Optimus is nearing that speed and might even possess the capability for quicker movement, potentially including running.
Warehousing, logistics, retail, elder care, hospitality, and even agricultural sectors could benefit from utilizing Optimus robots for repetitive, hazardous, or demanding physical tasks.
Tesla has not specified an official release timeline, but considering the advanced development level and successful real-world demonstration, a commercial launch could commence within the next 12 to 24 months.
Optimus currently stands out in terms of movement fluidity, autonomous operation, and training effectiveness. While competitors like Boston Dynamics and Figure AI are also advancing quickly, Tesla’s integration with its wider ecosystem provides it with a distinct advantage.
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Microsoft has announced the elimination of roughly 6,000 positions worldwide, representing about 3% of its workforce, as it redirects its focus towards the advancement of artificial intelligence (AI) and its infrastructure. These job cuts span multiple departments and locations, marking the most significant reduction in staff since the elimination of 10,000 jobs in 2023.
The layoffs coincide with Microsoft’s intensified commitment to AI, a technology considered crucial for future growth. With rivals like Google and Amazon also enhancing their AI capacities, the Redmond-based corporation is making substantial investments to remain competitive. Microsoft has committed US$80 billion (approximately AU$124 billion) for capital spending this fiscal year, primarily to broaden its global data centre infrastructure to accommodate AI demands.
Microsoft’s ambitions in AI involve significant partnerships, such as the multi-billion-dollar stake in OpenAI and the integration of AI functionalities into products like Microsoft 365 Copilot and Azure AI services. However, these ventures come with considerable expenses, particularly related to infrastructure and research & development.
Despite posting strong quarterly figures, including significant growth in its Azure cloud division, Microsoft is grappling with narrowing profit margins. During the March quarter, cloud margins dropped from 72% to 69% year-over-year, largely due to the high expenditures associated with developing and maintaining AI infrastructure. Analysts warn that, without implementing cost-reduction strategies such as workforce reductions, Microsoft’s profitability may face ongoing pressure.
Gil Luria, an analyst at D.A. Davidson, noted that Microsoft must judiciously manage its capital investments and workforce size to handle depreciation and margin challenges. “We believe that for every year Microsoft continues to invest at these levels, it would need to decrease staff numbers by at least 10,000 to offset rising depreciation costs,” stated Luria.
Microsoft is not the only company pursuing this strategy. Other tech leaders like Google, Meta, and Amazon have also undertaken layoffs over the past year, shifting their focus from pandemic-related growth to more streamlined operations centered around new technologies like AI. According to TechBest, this industry-wide shift signifies a broader trend of strategic realignment, where businesses are increasingly directing both human and financial resources toward innovation while minimizing costs elsewhere.
For the workforce, this indicates a shift in the Big Tech landscape, where job security may increasingly hinge on competencies in emerging technologies, particularly AI, machine learning, and cloud services.
Microsoft’s choice to reduce about 3% of its global workforce represents a strategic move to reallocate resources towards the development of artificial intelligence. While the company remains financially strong, the escalating capital investments in AI infrastructure are compressing margins, necessitating cost-saving initiatives. This trend aligns with a broader shift among Big Tech firms prioritizing AI development while managing operational expenses. The restructuring highlights the rising significance of AI as a pivotal area in technology, alongside the organizational adjustments needed to facilitate its growth.
Microsoft is reducing its workforce to manage operational expenses while investing billions into AI development and infrastructure. These layoffs enable the firm to concentrate its human resources on essential growth sectors like AI and cloud computing.
About 6,000 employees, or just under 3% of Microsoft’s global workforce, will be impacted by the recent layoffs.
No, Microsoft has stated that the layoffs are not performance-related. They are part of a bigger organizational restructuring aimed at strategic realignment.
Microsoft is making significant investments in artificial intelligence, cloud computing, and international data centre expansion. It has allocated AU$124 billion for capital projects in the present fiscal year.
The layoffs will allow Microsoft to reallocate resources towards accelerating its AI initiatives, which include collaborations with OpenAI and the integration of AI features in products such as Azure and Microsoft 365.
Indeed, other prominent technology firms like Google, Meta, and Amazon have also executed layoffs while shifting their focus to AI and optimizing operations for enhanced efficiency and profitability.
While specific figures for Australia have not been announced, the global nature of the job cuts suggests that employees in various departments in Australia may be affected. Given Microsoft’s substantial presence in cities like Sydney, local consequences are anticipated, though not yet detailed.
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CMF by Nothing Buds 2 Wireless Earbuds, 48dB Hybrid ANC, Dirac Opteo Hi-Fi Sound, Ultra Bass 2.0, 6 HD Mics with Clear Voice 3.0, IP55 Waterproof, Bluetooth Earphones with Dual Connection, Dark Grey
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In a nation where outdoor living integrates into lifestyle, it makes sense that our technology advances accordingly. ASUS has introduced the ZenWiFi BD4 Outdoor, a hardy Wi-Fi 7 router crafted for delivering ultra-fast and reliable wireless connectivity across patios, gardens, sheds, and even front yards. Whether you’re streaming cricket games in the backyard or overseeing your smart irrigation system, the ZenWiFi BD4 Outdoor is built to keep you connected, come rain or shine.
The ZenWiFi BD4 Outdoor is among the pioneering routers in Australia to utilize Wi-Fi 7 (802.11be)—the latest evolution in wireless technology. With speeds of up to 3.6Gbps and a range of up to 746 metres, it effortlessly handles streaming of 4K videos, operates smart outdoor devices, and accommodates video calls without any disruptions.
The MLO feature enables devices to connect over various bands at once, boosting throughput and dependability. Combined with 4K Quadrature Amplitude Modulation (QAM), this router increases data density, ensuring quicker and more efficient data transfer even in crowded environments.
From the intense heat of the outback to the coastal cities’ salty breeze, the ZenWiFi BD4 Outdoor is designed to withstand it all. Its IP65-certified housing enables resistance against water and dust, while the internal elements are protected by surge protection and electrostatic discharge safeguards. Functioning in temperatures between -30°C to 60°C, it stands as one of the most rugged Wi-Fi routers suited for Australian climates.
Say goodbye to tangled wires—installation is straightforward thanks to Power over Ethernet (PoE+). With two 2.5G PoE-in ports featuring automatic WAN detection, the router gets both power and data via a single cable. If you don’t have PoE compatibility, an AC adapter comes included. The mounting kit accommodates installation on poles, walls, or level surfaces, providing you the flexibility to position it optimally.
Managing your outdoor smart appliances has never been simpler. The Smart Home Controller feature permits the establishment of up to three SSIDs, each with unique settings. This is perfect for segregating your main internet connection from IoT devices such as smart lights, security cameras, garage door openers, and even Wi-Fi-enabled grills.
Safety is crucial for any connected home. ASUS equips the ZenWiFi BD4 Outdoor with Triple-layer Network Security. This includes AiProtection Pro (powered by Trend Micro), which provides real-time threat monitoring, complemented by parental controls and device-specific protection—vital for families and remote employees alike.
The ASUS ZenWiFi BD4 Outdoor is anticipated to arrive in Australia in July 2025. Although pricing is yet to be officially announced, ASUS is likely to position it within the premium router segment. For updates on availability and pricing, check TechBest or reach out to your local ASUS distributor.
The ASUS ZenWiFi BD4 Outdoor represents a significant advancement for outdoor connectivity in Australia. With Wi-Fi 7 capabilities, robust weather resistance, and smart home compatibility, it’s the ideal route for anyone wanting to extend their networking capabilities beyond their home’s confines. Whether you’re working by the pool or enjoying a footy game in the shed, the ZenWiFi BD4 Outdoor ensures steady connectivity throughout your property.
The router has an IP65 certification for resistance to water and dust and is designed with surge and electrostatic protection. It operates within temperatures from -30°C to 60°C, making it suitable for diverse Australian climates.
Yes, the device is compatible with AiMesh, facilitating seamless integration with other ASUS mesh routers to enhance network coverage across your entire property.
The ZenWiFi BD4 Outdoor can provide stable Wi-Fi coverage extending up to 746 metres under optimal conditions, making it suitable for bigger residential spaces and outdoor areas.
Yes, it has two 2.5G PoE+ ports featuring auto WAN detection, allowing efficient single-cable installation for both power and data.
Definitely. The Smart Home Controller feature supports up to three SSIDs, each customizable for security cameras, smart lighting, grills, and more.
It includes triple-layer security with AiProtection Pro,
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The Australian Human Rights Commission (AHRC) has faced criticism after a major data breach revealed numerous sensitive documents submitted through its online platform. This breach resulted from improperly configured webforms, making over 670 documents indexed by search engines and available to the public without any restrictions.
Identified on 10 April 2024, this vulnerability had unwittingly permitted access to documents dating back to October 2021. The Commission reports that approximately 100 of these documents were accessed, likely via search engine searches.
While the total number of exposed files surpassed 670, the AHRC confirmed that a significant portion contained personal information. The submissions included sensitive complaints, award nominations, and conceptual papers, many of which were intended to remain confidential.
Despite the Commission’s attempts to classify the sensitivity of the released information, the breach reveals major flaws in data management practices. Although some documents were publicly accessible or deemed non-sensitive, numerous others contained personal identifiers and private information.
Preliminary investigations suggested that the breach was confined to a single month in 2024. However, a comprehensive audit indicated that the problem had persisted since October 2021. This finding has raised concerns among cybersecurity experts regarding the Commission’s internal monitoring and response strategies.
Upon discovering the breach, the Commission promptly disabled the ability to upload documents via its webforms and started the removal of indexed files from search engines like Google and Bing. Notifications are being sent to affected individuals, but only where contact details can be obtained.
This event has reignited national discussions about cybersecurity preparedness across Australian governmental organizations. The Office of the Australian Information Commissioner (OAIC) has been informed, and this incident may lead to heightened regulatory examination.
In recent months, Australia has dealt with several high-profile data breaches, notably involving Optus and Medibank. Experts advocate that agencies like the AHRC must implement stricter data management protocols, which should include regular security evaluations and strong encryption, especially when handling personal or sensitive citizen information.
In response to the breach, the AHRC has ceased all webform submissions and is currently exploring secure alternative methods for information gathering. The Commission has affirmed its commitment to revising data management protocols and enhancing its digital security infrastructure.
Cybersecurity specialists advise establishing automatic indexing safeguards, access limitations, and secure file submission systems to avert similar breaches in the future. Incorporating regular penetration testing and vulnerability assessments should also become standard practice for any governmental agency dealing with personal data.
The unauthorized exposure of confidential documents by the Australian Human Rights Commission due to a webform misconfiguration underscores the urgent need for enhanced cybersecurity measures within governmental entities. With sensitive information dating back over two years made accessible via public search engines, this incident starkly highlights the dangers associated with digital data compilation without sufficient security oversight. Immediate action is necessary to rebuild public trust and strengthen Australia’s governmental digital frameworks.
The breach occurred due to a misconfigured webform system that allowed uploaded files to be indexed by search engines, thus rendering them publicly accessible.
Approximately 670 documents were compromised, with around 100 of them accessed by unauthorized parties before the breach was addressed.
The breach had been ongoing since October 2021 and was not identified until April 2024, indicating it went unnoticed for over two years.
The leaked documents contained personal information, details of complaints, award nominations, and other submissions with potentially sensitive or private data.
The AHRC has disabled the file upload capability on its webforms, removed documents from search engines, and is notifying affected individuals where their contact details are available.
The Office of the Australian Information Commissioner has been alerted, and individuals whose data was compromised are being contacted if their information is known.
This breach highlights systemic weaknesses in government digital infrastructure and stresses the need for better cybersecurity frameworks, regular audits, and training for staff on data protection best practices.
While webform uploads are currently suspended, the AHRC has indicated that secure alternative methods for information submission will be made available to ensure continued access to its services.
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Tiny Bluetooth Earbuds,Kids Wireless Earbuds with Cute USB-C Charging Case, Waterproof Stereo TWS Wireless Earphone for Workout Sport with Micphone,Bluetooth 5.0 Headphones for iOS and Android……
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Tesla’s ambitious initiative to roll out a paid robotaxi service in Austin, Texas, this June is facing significant scrutiny as the US National Highway Traffic Safety Administration (NHTSA) seeks clarification. The focus is on the performance of Tesla’s Full Self-Driving (FSD) software in adverse weather conditions — a crucial aspect of safety in autonomous driving.
The NHTSA’s concerns stem from actual incidents. Since October 2023, the agency has been examining various Tesla accidents involving FSD in low-visibility scenarios — such as fog, rain, dust, and sunlight glare. These conditions are known to hinder sensor efficacy and camera operation, both vital for Tesla’s autonomous system.
The NHTSA reported four cases where Tesla vehicles operating in FSD mode were involved in accidents during low-visibility circumstances. Notable incidents included a fatal pedestrian impact in Rimrock, Arizona, and a deadly collision involving a motorcyclist in Seattle in April 2024.
The NHTSA has issued a public letter requesting Tesla to provide the number of vehicles intended for deployment, the launch timeline, and whether these robotaxis will undergo real-time monitoring by Tesla staff. This matter is particularly urgent considering the company’s past encouragement for drivers to stay alert — a stance increasingly conflicting with the principle of full autonomy.
The agency is also demanding technical details: What types of sensors are utilized? Are Tesla’s advanced driver-assistance systems (ADAS) aligned with industry norms? How does the company manage transitions between monitored and unmanned driving modes?
In December 2023, Tesla recalled over 2 million vehicles in the US to rectify deficiencies in its Autopilot system, which is separate from but commonly mistaken for FSD. This action followed revelations that drivers were insufficiently attentive while using the system. Despite the recall, the NHTSA is still assessing whether the modifications are adequate to guarantee driver engagement and overall road safety.
While the immediate focus is on a US rollout, the implications resonate worldwide. Australia is carefully tracking advancements in autonomous vehicle technology, with testing initiatives happening in states like Victoria and South Australia. Tesla’s outcomes in the US could either boost or hinder local interest in robotaxis.
Furthermore, Australian regulators may mirror the NHTSA’s approach by requiring rigorous safety guarantees before permitting similar autonomous initiatives domestically. Given the distinct weather conditions and road circumstances, ensuring reliable AI driving performance is essential.
Tesla’s initiative to launch a paid robotaxi service in Texas is encountering enhanced scrutiny from US regulators, particularly regarding its effectiveness in low visibility situations. With a history of incidents related to Full Self-Driving technology and a recent recall of over 2 million vehicles, the National Highway Traffic Safety Administration is requesting comprehensive information on safety procedures, technical specifications, and real-time oversight. The findings from this investigation could influence the future of autonomous vehicle rollouts in the US and potentially affect regulatory attitudes in regions like Australia.
The NHTSA is examining how Tesla’s Full Self-Driving (FSD) technology performs in adverse weather and low-visibility conditions while also seeking comprehensive deployment plans, vehicle counts, monitoring procedures, and technology specifications.
Conditions such as fog, rain, and sunlight glare can disrupt sensors and cameras, which are crucial for Tesla’s autonomous driving technology. The NHTSA is worried that these situations may heighten the risk of accidents if the FSD system fails to react appropriately.
As of now, Tesla has not publicly addressed the NHTSA’s inquiries regarding the robotaxi program or the associated safety concerns.
Over 2 million vehicles in the US faced recall to resolve issues with Tesla’s Autopilot system. The recall was intended to enhance driver engagement and minimize improper use of the technology.
Tesla promotes its FSD system as capable of achieving full autonomy under supervision, but the vehicles are not recognized as fully self-driving according to current industry or legal definitions. The NHTSA is seeking clarification regarding whether Tesla vehicles will operate without supervision.
Australia is closely monitoring developments as it formulates frameworks for autonomous vehicles. Regulatory choices in the US may impact how local entities approach safety standards and the deployment of similar technologies in Australia.
This is one of the primary inquiries the NHTSA wants Tesla to address. The agency is demanding protocols for managing such occurrences, including whether the ride is halted or redirected, and how passenger safety is assured.
Yes, it is possible. If the NHTSA finds Tesla’s responses lacking or uncovers safety concerns that need addressing, it could delay or even prevent the scheduled June launch in Austin, Texas.
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Skullcandy Dime Evo in-Ear Wireless Earbuds, 36 Hr Battery, Microphone, Works with iPhone Android and Bluetooth Devices – True Black
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The Australian Securities and Investments Commission (ASIC) is making a significant leap towards digital modernisation by deploying a new enterprise resource planning (ERP) system powered by TechnologyOne. This upgrade, priced at $7.2 million, is set to occur over the next financial year and represents a crucial transformation in the regulator’s internal framework.
The Australian SaaS company TechnologyOne has been appointed to provide its cloud-based ERP solution under a contract valid until May 2027. This platform is designed to enhance financial management, ensure real-time data accessibility, and optimize operations across ASIC’s financial divisions.
“Enhancing our ERP system will enable us to better support our employees and is part of ASIC’s overall goal to bolster our ability to be a leading, digitally enabled regulator,” an ASIC representative commented.
Although TechnologyOne’s ERP solution will serve as a key element of ASIC’s financial practices, it will also function alongside pre-existing systems such as Expense8 and Granular Time Reporting. These platforms will be maintained autonomously to ensure smooth operations during the transition.
To guarantee the effective implementation and sustainability of the new system, ASIC has begun searching for an ERP Manager of Financial Systems. This position will play a vital role in crafting a financial systems roadmap and supervising the comprehensive implementation approach.
ASIC’s ERP upgrade comes on the heels of its involvement in the now-abandoned GovERP program—a federal initiative aimed at creating a shared SAP-based ERP system for various agencies. Despite pouring in over $4.7 million, the project was ultimately abandoned in 2024 due to inadequate reusable functionalities. This experience has spurred agencies like ASIC to seek bespoke solutions that better address their operational needs.
Alongside its financial system upgrade, ASIC is also prioritizing the modernization of its HR infrastructure. As noted in the regulator’s 2023-2024 annual report, initiatives include planning for a new payroll system and redesigning HR workflows to support the full employee lifecycle. A benefits realization initiative is currently in progress to assess the effectiveness of these HR undertakings and ensure alignment with organizational objectives.
ASIC’s choice aligns with the broader Australian Government’s Digital Transformation Strategy, which promotes cloud-first approaches to boost agility, lower expenses, and enhance service delivery. TechnologyOne’s SaaS platform operates within Australian data centres, ensuring adherence to federal standards for data sovereignty and cybersecurity.
ASIC’s collaboration with TechnologyOne signifies a crucial milestone in the regulator’s digital progression as it adopts a cloud-first approach for its financial systems. With a multi-year investment, proactive ERP leadership, and insights gained from prior projects like GovERP, ASIC aims to establish itself as a progressive, digitally adept authority. These transformations are set to benefit not only internal operations but also strengthen the agency’s ability to fulfill its regulatory responsibilities in a rapidly changing financial environment.
The central objective is to modernise ASIC’s internal financial systems, providing enhanced support for staff and improving the agency’s digital capabilities. This aligns with its overarching goal of evolving into a digitally empowered regulator.
TechnologyOne, an Australian software-as-a-service provider, has been engaged to deliver and oversee the new ERP platform until May 2027.
The contract is worth $7.2 million and encompasses the implementation and maintenance of the SaaS ERP platform.
GovERP was a centralised SAP ERP endeavor intended for multiple federal agencies. It was curtailed in 2023 and finally eliminated in 2024 due to its practical shortcomings and lack of utility for reuse.
Yes, ASIC has confirmed that it will continue to support Expense8 and Granular Time Reporting systems independently alongside the new TechnologyOne platform.
Yes, ASIC is simultaneously focused on modernizing its HR systems, which includes rolling out a new payroll system and mapping processes throughout the employee lifecycle.
The appointed ERP Manager of Financial Systems will be crucial for managing the rollout, engaging with stakeholders, and crafting a strategic plan for the financial systems enhancement.
The upgrade reinforces the Australian Government’s initiative for cloud-first, digitally advanced public sector operations. By selecting a local SaaS provider like TechnologyOne, ASIC guarantees compliance with data sovereignty and cybersecurity standards.
