4d View Software

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ExecutiveChef Billy Muzio and Chef de Cuisine Brian Zembreski form a dynamic culinary duo at View, meticulously collaborating to source the finest local offerings every season. Their synergy and passion for fresh ingredients is evident in their ever-evolving seasonal menus, showcasing a remarkable fusion of flavors and techniques that celebrate the bounties of the region.

Our menu emphasizes locally sourced ingredients, reflecting a commitment to sustainability and supporting the Long Island community. By collaborating with nearby fishermen and farmers, we continually offer selections that celebrate the freshest seasonal produce and seafood, showcasing the region's rich culinary heritage.

Host your dream wedding or private event at View, where breathtaking waterfront views and exquisite cuisine come together to create unforgettable memories. Our dedicated staff and versatile event spaces will ensure a seamless experience tailored to your unique vision, making your special day truly exceptional.

Please select a location to view an outage map for your area and get an estimated time of restoration for your service. To report an emergency like a downed power line, smoke, fire or a gas leak, call us at 1-800-9OUTAGE.

Bonus high-tech features include Bluetooth connectivity to adjust the level of heat from your phone, and it can also show you areas that are being heated directly as well as a detailed view of remaining battery life.

There is not 100% confidence in the elevation data and/or mapping process. It is important not to focus on the exact extent of inundation, but rather to examine the level of confidence that the extent of inundation is accurate (see mapping confidence tab).

The four relative sea level rise (RSL) scenarios shown in this tab are derived from the 2022 Sea Level Rise Technical Report using the same methods as the U.S. Army Corps of Engineers Sea Level Change Curve Calculator. These new scenarios were developed by the U.S. Sea Level Rise and Coastal Flood Hazard Scenarios and Tools Interagency Task Force as input into the U.S. Global Change Research Program Sustained Assessment process and, Fifth National Climate Assessment. These RSL scenarios provide an update to the NOAA 2017 scenarios, which were developed as input to the Fourth National Climate Assessment.

Note: We do not show the low scenario, as it is a continuation of the current global trend since the early 1990s and has been determined to have a low probability of occurring by 2100. Furthermore, this scenario would be associated with low levels of risk even if it did occur.

Another important change from the 2017 scenarios is the exclusion of the extreme (2.5 meter) scenario. Based on the most recent scientific understanding, and as discussed in the IPCC AR6, the uncertain physical processes that could lead to much higher increases in sea level are now viewed as less plausible in the coming decades before potentially becoming a factor toward the end of the 21st century. A GMSL increase of 2.5 meters is thus viewed as less plausible and the associated scenario has been removed.

For almost all the scenarios, RSL rise is likely to be greater than the global average in the U.S. Northeast and the western Gulf of Mexico. In intermediate and low scenarios, RSL rise is likely to be less than the global average in much of the Pacific Northwest and Alaska. For high scenarios, RSL rise is likely to be higher than the global average along all U.S. coastlines outside Alaska.

A RSL-change adjustment to the current National Tidal Datum Epoch (1983-2001) will cause a minimal offset that may be needed for some applications. The USACE Sea Level Change Curve Calculator can correct for this offset.

The inundation areas depicted in the Sea Level Rise tab are not as precise as they may appear. There are many unknowns when mapping future conditions, including natural evolution of the coastal landforms (e.g., barrier island overwash and migration), as well as the data used to predict the changes. The presentation of confidence in these maps only represents the known error in the elevation data and tidal corrections.

Blue areas denote a high confidence of inundation, orange areas denote a high degree of uncertainty, and unshaded areas denote a high confidence that these areas will be dry given the chosen water level.

In this application 80% is considered a high degree of confidence such that, for example, the blue areas denote locations that may be correctly mapped as 'inundated' more than 8 out of 10 times. Areas with a high degree of uncertainty represent locations that may be mapped correctly (either as inundated or dry) less than 8 out of 10 times. For a detailed description of the confidence levels and their computation, see the methods document.

Predictions represent the potential distribution of each wetland type (see legend) based on their elevation and how frequently they may be inundated under each scenario. As sea levels increase, some marshes may migrate into neighboring low-lying areas, while other sections of marsh will change type or be lost to open water.

Note: We do not show the low scenario as it is a continuation of the current global trend since the early 1990s and has been determined to have a low probability of occurring by 2100. Furthermore, this scenario would be associated with low levels of risk even if it did occur.

The Social Vulnerability Index, which shows areas of high human vulnerability to hazards, is based on population attributes from Census 2010 (e.g., age and poverty) and the built environment. By looking at the intersection of potential sea level rise and vulnerable Census tracts, one can get an idea of how vulnerable populations might be affected by sea level rise. Dark red indicates tracts having a high vulnerability, and the lighter reds indicate decreasing vulnerability.

Click on a NOAA tide station icon in the map to see historical inundation events in flood days per year. The flood thresholds used in these plots are derived national flood thresholds from NOAA Technical Report NOS CO-OPS 086: Patterns and Projections of High Tide Flooding Along the U.S. Coastline Using a Common Impact Threshold. The derived thresholds used here provide a national definition of coastal flooding and impacts for quantifying and communicating risk. These thresholds may deviate from NWS impact thresholds which take into account local flood risk and are used to issue NWS coastal flood watches, warnings, and advisories.

The purpose of this map viewer is to provide federal, state, and local coastal resource managers and planners with a preliminary look at sea level rise and coastal flooding impacts. The viewer is a screening-level tool that uses best-available, nationally consistent data sets and analyses. Data and maps provided can be used at several scales to help estimate impacts and prioritize actions for different scenarios.

Analytics automatically creates one unfiltered view for every property in your account, but you can set up multiple views on a single property. Any data you send to an Analytics property automatically appears in all views associated with that property. For example, if you collect data from two websites and send it to one property, then data from both websites appears in all reporting views on that property. This is also true for web and app data. If you collect data from a mobile app and from a website, and both your SDK and your tracking code send data to one property in your Analytics account, all data (both web and app hits) appear in all reporting views associated with that property.

You can use filters to customize views and see only a subset of data in your reports. You might, for example, have one view to filter out all internal traffic, and another to include only activity from a specific website directory or subdomain. If you send web and app data to the same property, you might want want to use filters to exclude web or app data from specific views. Other Analytics reporting tools, like Goals, Segments, and Alerts are all applied to individual views. You can also restrict user access to specific views so you can control who sees what data.

Yes. Your score report includes all your scores from all the AP Exams you took in the past. Your entire score history will be sent to your designated college, university, or scholarship program unless you choose to withhold or cancel any of your scores.

If you notice that exams that you took last year or earlier are missing, it might be because you have multiple accounts. To resolve a multiple account issue, contact AP Services for Students. During score release in July, AP Services for Students will have longer than usual response times.

If you took your last AP Exam before 2018, your AP scores are no longer viewable in our online score reporting system. They have been archived and can only be sent to a college, university or scholarship program through a request made via mail or fax.

If you notice that exams that you took last year or earlier are missing, it might be because you have multiple accounts. To resolve a multiple account issue, contact AP Services for Students. Please note that during score release in July, AP Services for Students will have longer than usual response times.

If you took your last AP Exam before 2018, your scores are archived. Archived scores are not viewable in our score reporting system and can only be sent to a college, university, or scholarship program through a request made via mail or fax.

Although most scores are available in July, some scores may take longer to process because of later testing dates or other circumstances (e.g., late arrival of testing materials or extra time needed to match records).

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