You might find packets of stevia on restaurant tables and store shelves. Stevia can also be found in many other products you eat. If you’re eating products marketed as low calorie, check the ingredients list to see what type of sweetener was used.
Currently, there’s no evidence linking stevia to cancer when used in normal amounts. Some research suggests it may even have some health benefits. A number of studies stress the need for more research into the potential benefits and risks of stevia. #Stevia#kombucha#ikombucha_ro#ikombucha https://foodinsight.org/everything-you-need-to-know-about-stevia-sweeteners/
Stevia may interact with drugs intended to treat hypertension and diabetes.
In animal studies, stevia didn’t affect fertility or pregnancy outcomes, but research on humans is lacking. If you’re pregnant or breastfeeding, stevia glycoside products may be consumed in moderation. Steer clear of whole-leaf stevia and crude stevia extracts while pregnant or nursing. #Stevia#kombucha#ikombucha_ro#ikombucha https://www.medicinenet.com/stevia/article.htm
Stevia made with Reb-A is safe to use in moderation during pregnancy. If you’re sensitive to sugar alcohols, choose a brand that doesn’t contain erythritol.
Whole-leaf stevia and crude stevia extract, including stevia you’ve grown at home, are not safe to use if you’re pregnant.
It may seem strange that a highly refined product is considered safer than a natural one. This is a common mystery with herbal products. #Stevia#kombucha#ikombucha_ro#ikombucha https://www.britannica.com/plant/stevia-plant
Stevia, a zero-calorie sugar substitute, is recognized as safe by the Food and Drug Administration (FDA) and the European Food Safety Authority (EFSA). In vitro and in vivo studies showed that stevia has antiglycemic action and antioxidant effects in adipose tissue and the vascular wall, reduces blood pressure levels and hepatic steatosis, stabilizes the atherosclerotic plaque, and ameliorates liver and kidney damage. The metabolism of steviol glycosides is dependent upon gut microbiota, which breaks down glycosides into steviol that can be absorbed by the host. In this review, we elucidated the effects of stevia's consumption on the host's gut microbiota. #Stevia#kombucha#ikombucha_ro#ikombucha https://pubmed.ncbi.nlm.nih.gov/35456796/
A 2019 study reported a possible link between nonnutritive sweeteners, including stevia, and disruption in beneficial intestinal flora. The same study also suggested nonnutritive sweeteners may induce glucose intolerance and metabolic disorders.
As with most nonnutritive sweeteners, a major downside is the taste. Stevia has a mild, licorice-like taste that’s slightly bitter. Some people enjoy it, but it’s a turn-off for others.
In some people, stevia products made with sugar alcohols may cause digestive problems, such as bloating and diarrhea. #Stevia#kombucha#ikombucha_ro#ikombucha https://www.webmd.com/food-recipes/what-is-stevia
Stevia, a zero-calorie sugar substitute, is recognized as safe by the Food and Drug Administration (FDA) and the European Food Safety Authority (EFSA). In vitro and in vivo studies showed that stevia has antiglycemic action and antioxidant effects in adipose tissue and the vascular wall, reduces blood pressure levels and hepatic steatosis, stabilizes the atherosclerotic plaque, and ameliorates liver and kidney damage. The metabolism of steviol glycosides is dependent upon gut microbiota, which breaks down glycosides into steviol that can be absorbed by the host. In this review, we elucidated the effects of stevia’s consumption on the host’s gut microbiota. #Stevia#kombucha#ikombucha_ro#ikombucha https://www.mdpi.com/2076-2607/10/4/744/htm
I have IBS and sugar makes it act up. I use stevia extract as a substitute in products, and I AM constantly working on improving my gut biome health. This was a dense but good read.
Hi, I'm not quite sure if this vhdl code and testbench is correct for the given task. Can you take a look?
Design a one-hour kitchen timer. The device should have buttons/switches to start and stop the timer, as well as to set the desired time interval for the alarm. Realize the task using the software package Quartus or in GHDL, confirm the correctness of the project task by simulation.
This is VHDL code:
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
entity Kitchen_Timer is
port (
clk : in std_logic; -- Clock input
reset : in std_logic; -- Reset input
start : in std_logic; -- Start button input
stop : in std_logic; -- Stop button input
alarm : out std_logic -- Alarm output
);
end entity Kitchen_Timer;
-- Declare the architecture for the kitchen timer
architecture Behavioral of Kitchen_Timer is
signal count : integer range 0 to 3600 := 0; -- Counter for timer
signal alarming : std_logic := '0'; -- Signal to indicate alarming interval
signal alarm_en : std_logic := '0'; -- Signal to enable alarming interval
signal alarm_cnt : integer range 0 to 600 := 0; -- Counter for alarming interval
begin
-- Process to control the kitchen timer and alarming interval
process (clk, reset)
begin
if (reset = '1') then
count <= 0;
alarming <= '0';
alarm_en <= '0';
alarm_cnt <= 0;
elsif (rising_edge(clk)) then
if (stop = '1') then
count <= 0;
alarming <= '0';
alarm_en <= '0';
alarm_cnt <= 0;
elsif (start = '1' and count < 3600) then
count <= count + 1;
if (count = 3600) then
count <= 0;
alarming <= '0';
alarm_en <= '0';
alarm_cnt <= 0;
elsif (count > 0) then
alarm_en <= '1';
end if;
end if;
if (alarm_en = '1') then
if (alarm_cnt < 600) then
alarm_cnt <= alarm_cnt + 1;
else
alarm_cnt <= 0;
alarming <= '1';
end if;
end if;
end if;
end process;
-- Assign the alarm output
alarm <= alarming;
end architecture Behavioral; ```
This is Testbench:
```library ieee;
use ieee.std_logic_1164.all;
entity tb_Kitchen_Timer is
end tb_Kitchen_Timer;
architecture tb of tb_Kitchen_Timer is
component Kitchen_Timer
port (clk : in std_logic;
reset : in std_logic;
start : in std_logic;
stop : in std_logic;
alarm : out std_logic);
end component;
signal clk : std_logic;
signal reset : std_logic;
signal start : std_logic;
signal stop : std_logic;
signal alarm : std_logic;
constant TbPeriod : time := 1000 ns; -- EDIT Put right period here
signal TbClock : std_logic := '0';
signal TbSimEnded : std_logic := '0';
begin
dut : Kitchen_Timer
port map (clk => clk,
reset => reset,
start => start,
stop => stop,
alarm => alarm);
-- Clock generation
TbClock <= not TbClock after TbPeriod/2 when TbSimEnded /= '1' else '0';
-- EDIT: Check that clk is really your main clock signal
clk <= TbClock;
stimuli : process
begin
-- EDIT Adapt initialization as needed
start <= '0';
stop <= '0';
-- Reset generation
-- EDIT: Check that reset is really your reset signal
reset <= '1';
wait for 100 ns;
reset <= '0';
wait for 100 ns;
-- EDIT Add stimuli here
wait for 100 * TbPeriod;
-- Stop the clock and hence terminate the simulation
TbSimEnded <= '1';
wait;
end process;
end tb;
-- Configuration block below is required by some simulators. Usually no need to edit.
configuration cfg_tb_Kitchen_Timer of tb_Kitchen_Timer is
for tb
end for;
end cfg_tb_Kitchen_Timer;```
#science
can you send me the code with the modifications so that I know what exactly you mean?
I would rather not, as it isn't a good learning experience for you, and would require some time for me to write the code.
Though if you have any questions about my previous answer, feel free to ask me about it.
As a freebie for you, pay attention to the alarming signal, and the condition that has been set: "The device should have buttons/switches to start and stop the timer, as well as to set the desired time interval for the alarm.". If I wanted the alarm to ring after 50 minutes, how would I do that? And what happens when the timer starts?
From the code I see here, the alarm is going to ring 10 minutes after being started, and it won't stop until an hour passes. And it has no way to set a time for it to ring, it always rings after 10 minutes.
And, not only that, the start signal is never set in the testbench, so the timer is never going to begin.
What do you think about the specifications that the project requires, should I stick to your code or should I add something from my own code?
I would stick to my code, your alarm isn't going to work properly due to its comparisons as I mentioned in my previous comments. But if you want to improve the code I modified, you can change the adjust_interval_up and adjust_interval_down buttons to be synchronized to their own states rather than the clock (make their own process with their signals added to the signal sensitivity list and add an extra asynchronous condition to zero the counter on the original process). If you don't make a change like this your alarm is going to take up to an hour to adjust its timer range.
Does your simulation correspond to a time of 1 hour and should there be alarming on the simulation?
Yes, if you have a 1/60 Hertz clock signal. And you must have alarming on the simulation as it is crucial to show that it works.
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Evidence 600-Million-Year-Old Ocean Existed In The Himalayas – Found: High up in the Himalayas, scientists at the Indian Institute of Science (IISc) and Niigata University, Japan, have discovered droplets of water trapped in mineral deposits that were likely left behind from an ancient ocean which existed around 600 million years ago. https://www.ancientpages.com/2023/07/29/600-million-year-old-ocean-himalayas/
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Why Do Cats Land on Their Feet? Physics Explains: As it turns out, felines can survive a fall from any height—at least in theory https://archive.is/j55HE
tl;dr: nothing specific to cats. It’s just an exercise of calculating “air friction” and terminal velocity. Same calculation would let a dog survive the fall no different.
Bizarre ‘mind-controlling’ parasitic worm lacks genes found in every known animal: Our world is full of bizarre and intriguing creatures. One of the strangest, though, is the hairworm, a parasitic worm known as a “mind control worm” in some circles. These parasitic worms are found all over the world, and they look similar to thin strands of spaghetti, usually measuring a couple of inches long. However, their bodies and genes hint at the parasitic lifestyle that they live. https://bgr.com/science/bizarre-mind-controlling-parasitic-worm-lacks-genes-found-in-every-known-animal/
Around 2,000 penguins wash up dead on Uruguay coast: Around 2,000 penguins have appeared dead on the coast of eastern Uruguay in the last 10 days, and the cause, which does not appear to be avian influenza, remains a mystery, authorities said. https://phys.org/news/2023-07-penguins-dead-uruguay-coast.html
The global affective computing market size is expected to reach USD 284.73 Billion at a steady CAGR of 32.5% in 2028, according to latest analysis by Emergen Research. Steady market revenue growth can be attributed to growing demand for telemedicine and increasing need to remotely assess patient’s health. Remote monitoring of patients is a primary application of telemedicine.
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Maximize Market Research offers a thorough analysis of the Micro Inverter Market, facilitating an optimized understanding of its features. The research report Micro Inverter contains a detailed explanation of the anticipated figures, notable developments, and income.
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Micro Inverter Market Scope
Economic and non-economic aspects are taken into account in the segmentation used in the research, which includes both qualitative and quantitative assessments of the Micro Inverter Market. It uses Porter's five forces analysis to undertake a thorough investigation of the Micro Inverter business from a variety of aspects. In addition, by following the Micro Inverter Market's path along the value chain, the research illuminates this market. A review of market trends within each sub-segment and region is included, along with historical data and projections for revenue growth at the national, regional, and worldwide levels.
Micro Inverter Market Regional Insights
Comprehensive analyses of the Asia-Pacific area, North America, Europe, Africa, South America, and the Middle East are included in the research. One component of regional analysis is comprehending the complex dynamics of the Micro Inverter market. The study includes a framework of product imports and exports by countries and regions, together with market sizes and growth rates for Micro Inverter. An overview of the most recent advancements in the sector across several nations and regions is provided in this research.
Get a Complete TOC of Micro Inverter Market Report
Direct Sales
Distributors and Wholesalers
Retailers
Others
Micro Inverter Market Key Players
Global
Enphase Energy Inc. (Fremont, California, USA)
SolarEdge Technologies (Herzliya, Israel)
SMA Solar Technology AG (Niestetal, Germany)
Huawei Technologies Co., Ltd. (Shenzhen, China)
Sungrow Power Supply Co., Ltd. (Hefei, China)
North America
APsystems (Seattle, Washington, USA)
Chilicon Power (Huntington Beach, California, USA)
SolarBridge Technologies (Austin, Texas, USA)
SunPower Corporation (San Jose, California, USA)
Power-One, Inc. (San Jose, California, USA)
Tigo Energy (Los Gatos, California, USA)
HiQ Solar (Santa Clara, California, USA)
Solectria Renewables (Lawrence, Massachusetts, USA)
Europe
Fronius International GmbH (Pettenbach, Austria)
Siemens AG (Munich, Germany)
KACO new energy GmbH (Neckarsulm, Germany)
Schneider Electric SE (Rueil-Malmaison, France)
SolarMax Technology Inc. (Biel, Switzerland)
Asia Pacific
Delta Electronics (Taipei, Taiwan)
Ginlong Solis (Ningbo, China)
Darfon Electronics Corporation (Taoyuan City, Taiwan)
GoodWe Power Supply Technology Co., Ltd. (Suzhou, China)
Zhejiang HuaKai New Energy Co., Ltd. (Jinhua, China)
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Key Offerings:
An in-depth examination of the market overview
Market Size, Share, and Revenue during Forecast period.
Market Dynamics: Key Trends, Investment Opportunities, Growth Drivers, and Restraints
Market Segmentation: A thorough examination based on Administration Route, Application, Usage Facility, and Region
Competitive Environment: Leading Providers and Other Notable Providers
Waterborne Coatings Market Share, Demand, Sales, Consumption and Forecast 2029
Waterborne Coatings Market Scope
The research uses both qualitative and quantitative data to provide readers a complete understanding of the nuances of the Waterborne Coatings market. The Waterborne Coatings market's size was established by a bottom-up approach. Techniques for collecting primary and secondary data were employed in order to obtain the information required for the study. The primary method uses a number of tools for gathering data, such as surveys and questionnaires. Secondary sources include articles, government publications, and yearly reports for data collecting, in addition to commercial sources like Bloomberg, Statista, and D&B Hoovers.
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Waterborne Coatings Market Overview
Maximize Market Research, a business consulting organization, has produced an extensive analysis of the "Waterborne Coatings Market". The research includes a competitive landscape, pricing and demand evaluations, and important business insights. The report's analysis provides a comprehensive look at the present situation of the market with estimates that go all the way up to 2029.
Waterborne Coatings Market Regional Insights
Comprehensive analyses of the Asia-Pacific area, North America, Europe, Africa, South America, and the Middle East are included in the research. One component of regional analysis is comprehending the complex dynamics of the Waterborne Coatings market. The study includes a framework of product imports and exports by countries and regions, together with market sizes and growth rates for Waterborne Coatings. An overview of the most recent advancements in the sector across several nations and regions is provided in this research.
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Kansai Paint Co. Ltd.
10.Jotun Group.
11.Benjamin Moore & Co.
12.Berger Paints India Limited
13.Hempel Group
14.Jotun
15.KCC CORPORATION
16.PPG Industries
17.Sika AG
18.Covestro AG
19.Dow
20.Solvay
21.SILBERLINE MANUFACTURING CO.
22.Hexion
23.The Lubrizol Corporation
24.Eastman Chemical Company
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Key Offerings:
Historical Market Size and Competitive Environment
Historical pricing and regional price curves
The market's size, share, size during forecast period
Market Dynamics: Regional Growth Drivers, Opportunities, Barriers, and Important Trends
Market segmentation: a thorough examination of each segment, along with its sub-segments, by region
Competitive Landscape: Strategically oriented profiles of a few major companies broken down by area
Market leaders, market followers, and regional players make up the competitive landscape.
Comparative analysis of major players by geographical area
PESTLE Evaluation
PORTER's evaluation
Analysis of supply chains and value chains
Regional Legal Aspects of Business
profitable business prospects using SWOT analysis
Key questions answered in the Waterborne Coatings Market are:
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Biogas Market Size, Demand, Sales, Consumption and Forecast 2029
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The research uses both qualitative and quantitative data to provide readers a complete understanding of the nuances of the Biogas market. The Biogas market's size was established by a bottom-up approach. Techniques for collecting primary and secondary data were employed in order to obtain the information required for the study. The primary method uses a number of tools for gathering data, such as surveys and questionnaires. Secondary sources include articles, government publications, and yearly reports for data collecting, in addition to commercial sources like Bloomberg, Statista, and D&B Hoovers.
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Biogas Market Segmentation
by Feedstock
Organic waste from landfills
Municipal waste water
Commercial organic waste
Agricultural waste
Energy crops
by Application
Electricity and heat generation
Natural gas grid feeding
Transportation fuel
by End User
Residential
Commercial
Industrial
Biogas Market Key Players
A2A Energia
AEB Amsterdam
Babcock & Wilcox
Veolia
Shenzhen Energy
Aterro Recycling Pvt. Ltd
Scandinavian Biogas Fuels International AB
EnviTech Biogas AG
L’AIR LIQUIDE S.A.
10.Pressure Technologies Plc
11.Cryostar SAS
12.Vanzetti Engineering S.r.l.
13.Himark Biogas Inc.
14.DMT Environmental Technology
15.MT-Energie GmbH
16.ACRONA GROUP
17.Xebec Adsorption Inc.
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Key Offerings:
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Historical pricing and regional price curves
The market's size, share, size during forecast period
Market Dynamics: Regional Growth Drivers, Opportunities, Barriers, and Important Trends
Market segmentation: a thorough examination of each segment, along with its sub-segments, by region
Competitive Landscape: Strategically oriented profiles of a few major companies broken down by area
Market leaders, market followers, and regional players make up the competitive landscape.
Comparative analysis of major players by geographical area
PESTLE Evaluation
PORTER's evaluation
Analysis of supply chains and value chains
Regional Legal Aspects of Business
profitable business prospects using SWOT analysis
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