You can see additional video demonstations and. In the last link you can see also how to import the exported normal map inside the popular Unity game development platform. I hope that this version may also be useful to 3D artists who need to generate simple normal maps to simulate material roughness of objects.

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When you save an image created with this version, SpeedyPainter exports 3 files: the normal map, the albedo image, and the combined image (normal+albedo) that looks identical to the image seen inside SpeedyPainter. In SpeedyPainter_BUMP, an additional keyboard shortcut (the '4' key) allows you to toggle painting/visualization mode. In 'visualization mode' you can look at the resulting image from differenct point of views (just rotate the canvas using the arrow keys) and move the light source (CTRL+left mouse drag) in order to see how the light interacts with the resulting surface. If you have any suggestions or you want to share your impressions about this experimental version feel free to contact me. About 'SpeedyPainter' is a simple and lightweight painting software.

It is written in C++ and uses the OpenGL graphics library. Among its features: • reference view that follows canvas movements (Use F3 key to enable it) • multiple layers • ability to vary stroke size and opacity according to pen pressure (supports Wacom digitizers) • export video of the drawing process • replay of the drawing process • loading/saving drawing process from/into a file • canvas flip/rotation • image crop • perspective grid overlay • customizable brush library • mirror tool Drawing process files: Usage: extract the zip archives and drop the zip content inside SpeedyPainter's window.

As an alternative you can use the 'drawing process ⇒ load' toolbar button, or just press F9 (). • • • • • • • • • • • • • •.

ANNEX I Definitions Definitions applicable for the purposes of Annexes II to IX to this Regulation: 1. ANNEX II Specific ecodesign requirements for RVUs, as referred to in Article 3(1) and 3(3) 1. From 1 January 2016: — SEC, calculated for average climate, shall be no more than 0 kWh/(m 2.a). — Non-ducted units including ventilation units intended to be equipped with one duct connection on either supply or extract air side shall have a maximum L WA of 45 dB. — All VUs, except dual use units, shall be equipped with a multi-speed drive or variable speed drive. — All BVUs shall have a thermal by-pass facility.

From 1 January 2018: — SEC, calculated for average climate, shall be no more than – 20 kWh/(m 2.a). — Non-ducted units including ventilation units intended to be equipped with one duct connection on either supply or extract air side shall have a maximum L WA of 40 dB. — All VUs, except dual use units, shall be equipped with a multi-speed drive or variable speed drive. — All BVUs shall have a thermal by-pass facility.

— Ventilation units with a filter shall be equipped with a visual filter change warning signal. ANNEX III Specific ecodesign requirements for NRVUs, as referred to in Article 3(2) and 3(4) 1.

From 1 January 2016: — All ventilation units, except dual use units, shall be equipped with a multi-speed drive or a variable speed drive. — All BVUs shall have a HRS. — The HRS shall have a thermal by-pass facility. — The minimum thermal efficiency η t_nrvu of all HRS except run-around HRS in BVUs shall be 67% and the efficiency bonus E = ( η t_nrvu – 0,67) * 3 000 if the thermal efficiency η t_nrvu is at least 67%, otherwise E = 0. — The minimum thermal efficiency η t_nrvu of run-around HRS in BVUs shall be 63% and the efficiency bonus E = ( η t_nrvu – 0,63) * 3 000 if the thermal efficiency η t_nrvu is at least 63%, otherwise E = 0. — The minimum fan efficiency for UVUs ( ην u) is — 6,2% * ln(P) + 35,0% if P ≤ 30 kW and — 56,1% if P >30 kW. — The maximum internal specific fan power of ventilation components ( SFP int_limit) in W/(m 3/s) is — for a BVU with run-around HRS — 1 700 + E – 300 * q nom/2 – F if q nom 30 kW.

— The maximum internal specific fan power of ventilation components ( SFP int_limit) in W/(m 3/s) is — for a BVU with run-around HRS — 1 600 + E – 300 * q nom/2 – F if q nom. ANNEX V Information requirements for NRVUs as referred to in Article 4(2) 1. From 1 January 2016, the following product information shall be provided: (a) manufacturer's name or trade mark; (b) manufacturer's model identifier, i.e. Pioneer Rekordbox License Keygen on this page. ANNEX VI Verification procedure for market surveillance purposes For the purposes of checking conformity with the requirements laid down in Annexes II to V, Member State authorities shall test a single ventilation unit. If the measured values or values calculated on the basis of measured values do not match the manufacturer's declared values within the meaning of Article 5, subject to the tolerances in Table 1: — for models that are produced in lower quantities than 5 per year, the model shall be considered not to comply with this Regulation, — for models that are produced in quantities of 5 or more per year, the market surveillance authority shall randomly test 3 additional units. If the arithmetic mean of the measured values for these units does not meet the requirements, subject to the tolerances in Table 1, the model and all other equivalent models shall be considered not to comply with the requirements of Annexes II to V.

The Member State authorities shall provide the test results and other relevant information to the authorities of the other Member States and to the Commission within one month of the decision being taken on the non-compliance of the model. Member State authorities shall use the measurement and calculation methods set out in Annexes VIII and IX and apply only those tolerances that are set out in Table 1.

Table 1 Parameter Verification tolerances SPI The measured value shall be no more than 1,07 times the maximum declared value. Thermal efficiency RVU and NRVU The measured value shall be no less than 0,93 times the minimum declared value. SFP int The measured value shall be no more than 1,07 times the maximum declared value. Fan efficiency UVU, non-residential The measured value shall be no less than 0,93 times the minimum declared value.

Sound power level RVU The measured value shall be no more than the maximum declared value plus 2 dB. Sound power level NRVU The measured value shall be no more than the maximum declared value plus 5 dB. The verification tolerances shall not be used by the manufacturer or importer in establishing the values in the technical documentation or in interpreting these values with a view to achieving compliance. ANNEX IX Measurements and calculations for NRVUs NRVUs shall be tested and calculated using a ‘reference configuration’ of the product.

Dual use units shall be tested and calculated in the ventilation mode. THERMAL EFFICIENCY OF A NON-RESIDENTIAL HEAT RECOVERY SYSTEM The thermal efficiency of a non-residential heat recovery system is defined as where: — η t is the thermal efficiency of the HRS [-]; — t 2″ is temperature of the supply air leaving the HRS and entering the room [°C]; — t 2′ is temperature of the outside air [°C]; — t 1′ is temperature of the exhaust air, leaving the room and entering the HRS [°C]. FILTER CORRECTIONS In case one or both filters are missing in comparison to reference configuration, the following filter correction shall be used: From 1 January 2016: F = 0 in case the reference configuration is complete; F = 160 if the medium filter is missing; F = 200 if the fine filter is missing; F = 360 if both the medium and the fine filters are missing. From 1 January 2018 F = 150 if the medium filter is missing; F = 190 if the fine filter is missing; F = 340 if both the medium and the fine filters are missing. ‘fine filter’ means a filter that meets the conditions for filter efficiency in the following test and calculation methods, to be declared by the filter supplier. Fine filters are tested at air flow of 0,944 m 3/s and filter face 592 × 592 mm (installation frame 610 × 610 mm) (face velocity 2,7 m/s). After proper preparation, calibration and checking the airstream for uniformity, initial filter efficiency and pressure drop of the clean filter are measured.

The filter is progressively loaded with appropriate dust up to a final filter pressure drop of 450 Pa. At first 30 g is loaded in the dust generator subsequently there must be at least 4 equidistant dust loading steps before reaching the final pressure. The dust is fed to the filter at a concentration of 70 mg/m 3.

France Vfr Video. Filter efficiency is measured with droplets in the size range 0,2 to 3 μm of a test aerosol (DEHS DiEthylHexylSebacate) at a rate of about 0,39 dm 3/s (1,4 m 3/h), Particles are counted 13 times, successively upstream and downstream of the filter at minimum 20 seconds with an optical particle counter (OPC). Incremental filter efficiency and pressure drop values are established. Average filter efficiency over the test for the various particle size classes is calculated. To qualify as a ‘fine filter’ the average efficiency for particle size 0,4 μm should be more than 80% and the minimum efficiency should be more than 35%. The minimum efficiency is the lowest efficiency among the discharged efficiency, initial efficiency and the lowest efficiency throughout the loading procedure of the test.

The discharge efficiency test is largely identical to the average efficiency test above, except that the flat sheet of filter media sample is electrostatically discharged with isopropanol (IPA) before testing. ‘medium filter’ means a filter that meets the following conditions for filter efficiency: A ‘medium filter’ is an air filter for a ventilation unit with performance tested and calculated as for the fine filter, but meeting the conditions that the average efficiency for particle size 0,4 μm should be more than 40%, to be declared by the filter supplier.