Next Generation of Landscape Architecture Leaders Focus on Climate, Equity, and Technology

September 9, 2023 Audrey

“Our fellows have shown courage, written books, founded mission-driven non-profits, created new coalitions, and disseminated new tools,” said Cindy Sanders, FASLA, CEO of OLIN, in her introduction of the Landscape Architecture Foundation (LAF) Fellowship for Innovation and Leadership program at Arena Stage in Washington, D.C.

Sanders highlighted the results of a five-year assessment of the LAF fellowship program and its efforts to grow the next generation of diverse landscape architecture leaders. The assessment shows that past fellows are shaping the future of the built environment in key public, non-profit, and private sector roles.

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And she introduced the latest class of six fellows, who focused on climate, equity, technology, and storytelling:

New Green Spaces Don’t Have to Lead to Gentrification

Chris Hardy, ASLA, senior associate at Sasaki, used his fellowship to significantly advance the Carbon Conscience tool he has been developing over the past few years. The web-based tool is meant to help landscape architects, planners, urban designers, and architects make better land-use decisions in early design phases when the opportunity to reduce climate impacts is greatest.

Carbon Conscience is also designed to work in tandem with the Pathfinder tool, created by LAF Fellow Pamela Conrad, ASLA, as part of Climate Positive Design. Once the parameters of a site have been established, Pathfinder enables landscape architects to improve their designs and materials choices to reach a climate positive state faster.

Hardy examined more than 300 studies to develop robust evidence to support a fully revamped version of Carbon Conscience, which will launch in July 2023. He found that “landscape architecture projects can be just as carbon intensive as architecture projects per square foot.” He wondered whether the only climate responsible approach is to stop building new projects altogether. “Are new projects worth the climate cost?”

After months of research, he believes decarbonizing landscape architecture projects will be “very hard,” but not impossible. He called for a shift away from the carbon-intensive designs of the past. To reduce emissions, landscape architects need to take a “less is more” approach; use local and natural materials; and increase space in their projects for ecological restoration, which can boost carbon sequestration. He cited Sasaki’s 600-acre mega-project in Athens Greece — the Ellinikon Metropolitan Park — as a model for how to apply Carbon Conscience, make smart design decisions, and significantly improve carbon performance upfront. “There are exciting design opportunities — this is not just carbon accounting.”

Landscape architect Erin Kelly, ASLA, based in Detroit, Michigan, sees enormous potential in using vacant land in cities for carbon sequestration. Her goal is to connect vacant lands with the growing global offset marketplace, which offered 155 million offsets in 2022 that earned $543 million. And

Organic Electronics Market to Hit USD 381 billion by 2032

September 9, 2023 Audrey

“Organic materials are usually better for the environment than the usual non-organic stuff in electronics. This matches the rising need for eco-friendly technology. Ongoing research makes organic materials work even better, so they can be used in more ways.”

New York, Sept. 05, 2023 (GLOBE NEWSWIRE) — According to Market.us, The Global Organic Electronics Market Size accounted for USD 58 billion in 2022 and is estimated to garner a market size of USD 381 billion by 2032; rising at a CAGR of 21.3% from 2023 to 2032.

The organic electronics market for the sector focused on the development, production, and application of electronic devices and components using organic materials like organic semiconductors and conductive polymers. These materials exhibit properties that enable the formation of flexible, lightweight, and price-effective electronics, including displays, sensors, photovoltaics, and wearable devices. This market’s growth is driven by advancements in organic materials, the potential for larger area manufacturing, and the potential for innovative applications in different industries like consumer electronics, healthcare, and energy.

To get additional highlights on major revenue-generating segments, Request an Organic Electronics Market sample report at https://market.us/report/organic-electronics-market/request-sample/

Key Takeaway:

By Material, the semiconductor held a significant market share of 42% in 2022.
By Components, the active held a significant market share of 63% in 2022.
By Application, the display segment has dominated the market, growing at a CAGR of 32.1% from 2023 to 2032.
By End-User, the consumer electronics segment has dominated the market.
In 2022, North America dominated the market with the highest revenue share of 35.2%.
Asia-Pacific will grow at the highest CAGR of 29.8% from 2023-2032.

Factors Affecting the Growth of the Organic Electronics Market

Flexible and Lightweight Devices: Organic materials allow for the creation of flexible and lightweight electronic devices, enabling innovative applications like foldable displays and wearable electronics.
Energy Efficiency: Organic electronic components can be energy-efficient, leading to longer battery life and reduced power consumption in various devices.
Cost-Effectiveness: Organic materials can be produced using relatively low-cost manufacturing techniques, potentially reducing production costs for electronics.
Large-Area Manufacturing: Organic electronics can be fabricated over large areas using techniques like printing and roll-to-roll processing, offering scalability and lower production costs.
Environmental Sustainability: Organic materials are often more environmentally friendly than traditional inorganic materials used in electronics, aligning with the growing demand for sustainable technologies.
Innovative Applications: Organic electronics enable novel applications such as flexible displays, electronic skin, smart textiles, and biodegradable electronics.
Rapid Technological Advancements: Ongoing research and development efforts lead to continuous improvements in organic materials’ performance, boosting their suitability for a wider range of applications.

To understand how our report can make a difference to your business strategy, Inquire about a brochure at https://market.us/report/organic-electronics-market/#inquiry

Top Trends in the Global Organic Electronics Market

A number of revolutionary phenomena are now influencing the trajectory of the worldwide market for organic electronics and its effects across sectors. The incorporation of organic electronics into wearable technology and smart fabrics is one of the dominant themes.

ZimaBoard X86 versatile single board computer with PCIe slot

September 8, 2023 Audrey

In the realm of single board computers (SBCs), ZimaBoard is carving out a unique niche. This low-cost, single board server is a dream come true for tech enthusiasts and DIY makers, offering the expandability of an x86 SBC and the power of a microserver.

ZimaBoard is not just a server; it’s a personal cloud that can expand to over 36TB of disk space as data grows. This means no subscription fees and complete control over private data. It’s a solution that puts the power back in the hands of the user, allowing them to manage their digital world with ease and security.

The ZimaBoard is also a privacy champion. It can run OpenWRT and pfSense, enabling users to set up a VPN, hide their digital footprint, ban ads, and protect sensitive data from breaches. This is a significant advantage in an era where data privacy is a growing concern.

ZimaBoard

When it comes to connectivity, ZimaBoard doesn’t disappoint. It’s equipped with 2x GbE LAN Ports and 1 MiniDP, offering up to 4K/60Hz video at 100MB/sec speed. This makes it perfect for high-quality AV streaming experiences.

The ZimaBoard is also a tinkerer’s delight. It comes with an onboard PCIe x4 interface and a range of available accessories, including 2.5Gbe, NVMe NGFF SSD, WiFi dongle, XMOS/DAC module, and more. This makes it a versatile tool for a variety of projects.

ZimaBoard X86 mini PC with PCIe slot

One of the most exciting features of the ZimaBoard is its ability to be transformed into a hardware router. This allows for secure VPN connections, running lightweight services like FTP Server, BitTorrent Client, and private access to office computers.

With Plex Media Server installed on ZimaBoard, users can organize and stream their media collections on all devices, and enjoy high-resolution tracks via Tidal. It also allows for file sharing and collaboration, enabling users to set up a large-volume shared disk at home or in the office and edit files with others in real-time.

The ZimaBoard is compatible with a wide range of operating systems, including Linux, Windows, OpenWrt, pfSense, Android, and Libreelec. This makes it a versatile tool for a variety of applications.

Single board server for creators

Whether used as a personal server or for industry/embedded projects, ZimaBoard offers excellent development possibilities and a high performance/price ratio as an x86 microserver. It’s capable of collecting, buffering, and preprocessing data for accurate and effective on-site IoT data for the cloud or local server.

ZimaBoard’s features include 2x SATA 6.0 Gb/s Ports, 2x GbE LAN Ports, 2x USB 3.0, 1x PCle 2.0 x4, 1x Mini-DisplayPort 1.2, passive cooling, Intel VT-d, VT-x virtualization, AES-NI security, and support for 1080P video decoding.

ZimaBoard X86 specifications

Model: ZimaBoard 232/432/832
CPU: Intel Celeron N3350 Dual Core 1.1-2.4GHz (232 Model), or Intel Celeron N3450 Quad Core 1.1-2.2GHz (432 & 832 Model)
RAM: 2G/4G/8G LPDDR4
Onboard Storage: 32GB eMMC
HDD/SSD: 2x SATA 6.0 Gb/s Ports
LAN: 2x GbE LAN Ports
USB: 2x USB 3.0
PCle: 1x PCle 2.0 4x
Display: 1x Mini-DisplayPort

Computer system Scientists from the University of Massachusetts Amherst Developed Scalene: An Open up-Supply AI Device for Radically Dashing Up Python Programming

September 7, 2023 Audrey

Python’s recognition has surged not long ago, driven by its user-welcoming character and comprehensive libraries. Having said that, the language’s performance has been a consistent worry, with Python code usually working appreciably slower than other programming languages. This disparity in pace has led to the advancement of an revolutionary solution identified as Scalene by computer scientists at the University of Massachusetts Amherst.

Present profilers have tried to handle Python’s inefficiency by figuring out sluggish code areas, yet they require to provide actionable insights for optimization. Enter Scalene, a groundbreaking Python profiler developed by researchers at the University of Massachusetts Amherst. In contrast to its predecessors, Scalene pinpoints inefficiencies and leverages AI know-how to suggest concrete methods for maximizing code functionality.

Scalene’s solution consists of a subtle and in depth investigation of functionality bottlenecks that go beyond standard profiling strategies. The device targets the core factors contributing most to Python’s sluggishness: CPU utilization, GPU interactions, and memory usage styles. By meticulously dissecting these essential parts, Scalene delivers developers an unparalleled insight into the root will cause of inefficiency.

Exactly where Scalene genuinely distinguishes itself is in its person-centered method to optimization. Scalene can take a proactive stance, In contrast to common profilers, which frequently depart programmers grappling with the interpretation of uncooked information. The AI-driven motor embedded in just Scalene detects bottlenecks and features pragmatic, actionable tips tailored to the certain code context. This transformative element guides developers to specific areas of improvement, irrespective of whether they contain optimizing specific lines of code or strategically optimizing code groups.

The earlier mentioned desk compares the overall performance and features of different profilers to Scalene.

This groundbreaking methodology marks a substantial stride in the quest for more effective Python programming. It empowers developers to not only determine effectiveness bottlenecks with precision but also to navigate the complexities of optimization with a very clear roadmap. Scalene’s AI-powered method bridges the gap among detection and option, making sure that programmers can proficiently handle Python’s effectiveness troubles and elevate the top quality of their codebase. This innovative course of action lays a basis for a new era of optimized Python progress driven by information-driven insights and pragmatic steerage.

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Madhur Garg is a consulting intern at MarktechPost. He is currently pursuing his B.Tech in Civil and Environmental Engineering from the Indian Institute of Technologies (IIT), Patna. He shares a strong enthusiasm for Equipment Finding out and enjoys exploring the latest progress in systems and their useful applications. With a eager fascination in artificial intelligence and its various programs, Madhur is determined to contribute to the area of Knowledge Science and leverage its

Pioneering Single-Pixel Engineering Achieves 3D Imaging of Dwelling Cells

September 6, 2023 Audrey

Researchers have made a groundbreaking three-dimensional solitary-pixel imaging (3D-SPI) approach dependent on 3D light-weight-area illumination. This process allows significant-resolution imaging of microscopic objects. The 3D-SPI technique can probably revolutionize the visualization of various biological absorption contrasts, cell morphology, and expansion, presenting new opportunities in biomedical investigate and optical sensing. (Microscopic imaging artist’s thought.)

Researchers have pioneered a 3D-SPI strategy that permits superior-resolution imaging of microscopic objects, presenting a transformative strategy for long term biomedical analysis and optical sensing.

A study staff led by Prof. Lei Gong from the University of Science and Technological know-how (USTC) of the Chinese Academy of Sciences (CAS) and collaborators produced a a few-dimensional one-pixel imaging (3D-SPI) strategy based mostly on 3D mild-discipline illumination(3D-LFI), which allows volumetric imaging of microscopic objects with a around-diffraction-restrict 3D optical resolution. They additional shown its functionality of 3D visualization of label-absolutely free optical absorption contrast by imaging single algal cells in vivo.

The study titled “Optical Single-Pixel Volumetric Imaging by A few-dimensional Light-weight-Discipline Illumination” was revealed recently in the journal Proceedings of the Nationwide Academy of Sciences (PNAS).

Optical Single-Pixel Volumetric Imaging by Three-Dimensional Light-Field Illumination

Schematic diagram of 3D-SPI technique. Credit: Image by LIU Yifan

Rewards of SPI

Single-pixel imaging (SPI) has turn into an interesting 3D imaging modality. Through single-pixel detectors in its place of conventional array sensors, the effectiveness of SPI exceeds the standard types in spectral selection, detection performance, and timing reaction. On top of that, the solitary-mobile cameras outperform traditional imaging methods at weak depth, single-

Troubles and Breakthroughs

3D-SPI approaches normally count on time-of-flight (TOF) or stereovision to extract depth facts. Nonetheless, present implementations can only reach a millimeter stage at most effective, which is incapable of imaging microscopic objects like cells.

To exceed the resolution limitation, the scientists designed a 3D-LFI-SPM prototype. As a consequence, the prototype achieves an imaging quantity of ~390×390×3,800 μm³ and a resolution of up to 2.7 μm laterally and 37 μm axially. They executed label-free 3D imaging of living Haematococcus pluvialis cells and efficiently counted the dwelling cells in situ.

Potential Purposes

Predictably, the strategy can be utilized to visualize different absorption contrasts of biological samples. With depth-settled imaging potential, researchers may be probably capable to watch mobile morphology and progress in situ in the long run. The research opens the doorway to large-effectiveness 3D SPI with applications in biomedical investigation and optical sensing.

Reference: “Optical single-pixel volumetric imaging by 3-dimensional light-weight-field illumination” by Yifan Liu, Panpan Yu, Yijing Wu, Jinghan Zhuang, Ziqiang Wang, …

The best gaming monitors in 2023

September 6, 2023 Audrey

Finding the best computer monitor for your needs is already hard enough, but as soon as you decide to go for one that’s suited for gaming, there are a ton of additional factors and features to consider. What are refresh rates? What’s the difference between NVIDIA G-Sync and AMD FreeSync? Those are just some of the questions this guide aims to answer, and, in the process, help you find the best gaming monitor for your budget.

LCD vs OLED

When shopping for a new gaming monitor, you first need to decide if you want to go with a screen that has an LCD or OLED panel. For most people, that choice will come down to price; OLED gaming monitors are significantly more expensive than their LCD counterparts. But even if money isn’t a concern, the choice might not be as straightforward as you think.

LCD monitors come in three different varieties: twisted nematic (TN), vertical alignment (VA) or in-plane switching (IPS). Without getting too technical, each panel type has its own set of quirks. For the most part, you want to avoid TN monitors unless you’re strapped for cash or want a monitor with the fastest possible refresh rate. TN screens feature the worst viewing angles, contrast ratios and colors of the bunch. After using an IPS monitor for many years and testing an OLED monitor for this guide, I can’t go back to a TN panel.

The differences between VA and IPS panels are more subtle. Historically, VA gaming monitors have featured slower pixel response times than their TN and IPS counterparts, leading to unsightly image smearing. However, that’s improved in recent years. VA panels also frequently sport better contrast ratios than both TN and IPS screens. They’re not dramatically better than their IPS siblings on that front, but when contrast ratios aren’t an inherent strength of LCDs, every bit helps.

On the other hand, IPS panels excel at color accuracy and many offer refresh rates and response times that are as fast as the fastest TN panels. The majority of LCD gaming monitors on the market today feature IPS panels, though you will frequently find VA screens on ultrawide monitors.

In many ways, OLED is the superior display tech. There’s something transformational about the ability of organic light-emitting diodes to produce true blacks. Simply put, every game looks better when there’s no backlight to wash out shadow details. Moreover, if you buy an OLED monitor, you can experience something PC gamers have been missing out on for a while: proper HDR gaming.

Unfortunately, OLED screens also come with a few noteworthy drawbacks. One big one is text legibility. Almost all OLEDs feature sub-pixel layouts that produce noticeable text fringing in Windows. It’s not an issue you will see when gaming, but it does mean they aren’t the best for productivity.

Another issue — and everyone’s favorite topic of conversation whenever OLEDs come up — is burn-in. Organic light-emitting diodes can get “stuck” if they display the same image

Author: Audrey