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Advanced Micro Devices hopes for financial stability after years of struggles, but analysts said that a volatile PC market could derail the chip designer’s progress.

Keeping with its projection earlier this year, AMD’s CEO Rory Read said Thursday that the company would deliver a profit in the third fiscal quarter, which will be reported in September. The company is making progress as part of a “three-step strategy to restructure, accelerate and ultimately transform AMD for growth,” Read said in a conference call about earnings.

AMD’s plan

The return to profitability involves a mix of cost-cutting measures, shipments of new chips and less reliance on PCs, a market that has been slowing. As in past quarters, a majority of third-quarter revenue will be from PC chips, but the company is expecting a larger mix of revenue from chips for non-PC products such as gaming consoles. AMD’s chips will be used in Microsoft’s Xbox One and Sony’s PlayStation 4, which will ship later this year.

AMD is projecting revenue to increase on a sequential basis by 22 percent, plus or minus 3 percent, in the third quarter. AMD this week reported revenue of $1.16 billion for the second quarter, falling from $1.41 billion recorded during the same quarter last year. The company reported a net loss of $65 million for the quarter.

The company has already taken steps to cut costs, including laying off 15 percent of its workforce in October last year, and selling off a campus in Austin, Texas. It also broke off a relationship with GlobalFoundries as its sole chip manufacturers, though AMD paid a penalty for not meeting inventory requirements and breaching the contract.

AMD last quarter formed a new custom-chip business unit to make processors for gaming consoles, embedded devices and other non-PC products. The company expects its custom chip business to account for 20 percent of revenue by the fourth fiscal quarter and Read said the company is on its way to achieving that goal.

Beyond the PC

Compared to the past, AMD is now not trying to be an Intel clone, and aims to create a unique identity by working directly with companies to create custom and embedded chips, analysts said. AMD has also acquired a license for ARM processors and plans to release server chips with ARM processors next year.

“They’ve made a lot of progress. In particular, they are not trying to play a game against Intel, which is 10 times their size. That’s a pretty good sign,” said Nathan Brookwood, principal analyst at Insight 64.

AMD still competes with Intel on PC and tablet chips. But rather than depending on PCs, AMD wants to diversify their business into new areas and the initial foray into game consoles is a good start, Brookwood said.

The company could ultimately make an impact in tablets, which is a fast-growing market. AMD has announced a tablet chip called Temash, which is for Windows 8. The company has said it will ultimately build chips for Android and Chrome OS devices. AMD has no plans to develop chips for smartphones.

Game consoles will be key in driving AMD’s return to profitability in the third quarter, said Dean McCarron, principal analyst at Mercury Research.

“The game console business is something they can predict as it’s a contract,” McCarron said.

Microsoft and Sony have signed a contract to buy a specific number of chips from AMD, which guarantees a minimum revenue for the chip designer. The revenue will increase if the console makers buy more chips.

AMD will also realize revenue from the new Kabini PC chips it launched during the second quarter, McCarron said. Laptop and desktop shipments with the new chips will pick up in the back-to-school and the holiday seasons, McCarron said.

PC worries remain

But AMD’s business still relies on PCs and that market is volatile, McCarron said. Despite AMD’s confidence that the third quarter will be profitable, the fourth quarter is still up in the air, McCarron said.

AMD could stumble if the PC and tablet chips fail, analysts said.

Kabini chips will be driving low-end PC shipments and while initial response to the processors has been excellent, a lot depends on the demand for laptops and desktops, Insight 64’s Brookwood said.

“There’s no guarantee the buyers are going to go for those products,” Brookwood said.

AMD’s turnaround started when Read was appointed the CEO in August 2011, after which he assembled a new management team. The company tore up the old chip road map and established a new product lineup. AMD also introduced a new chip development methodology that made it easier to bring third-party intellectual property to chip designs, and the concept is now at the center of custom chip development.

“The team now is very different than before. The company is now focused on getting it right than in the past,” Brookwood said.

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Amd Radeon Hd 6870: Amd Takes The Midrange Graphics Crown

AMD’s Radeon HD 6800 series has arrived, and the results speak for themselves: The Radeon HD 6870 is the midrange card to beat.

The Radeon HD 6870 is the larger, more capable member of AMD’s new 6800 series lineup (the other newcomer is the Radeon HD 6850). Priced at a respectable $239 (as of October 21, 2010), this midrange graphics card manages to outpace its closest relative–the Radeon HD 5850 ($279)–while doing minimal damage to your bank balance.

Models in the Radeon HD 6800 series offer a new chip architecture, code-named Barts. It’s a modified version of the chip architecture (dubbed Cypress) featured in the Radeon HD 5850 and 5870 graphics cards, cutting back on Cypress’s size but still delivering excellent performance. Be sure to check out Jason Cross’s expansive overview of the Radeon HD 6800 GPUs and their architecture, for a deep dive into what’s happening under the hood.

If you’re already familiar with AMD’s 5800 series of graphics cards, you’ll be right at home with the 6800-series cards. In addition to sporting a similar aesthetic design to its predecessors’, the Radeon HD 6870 comes equipped with AMD’s Eyefinity Technology, which allows you to drive up to three displays from a single card. The card has a pair of DVI ports (one dual-link and one single-link), an HDMI port, and two mini-DisplayPort connectors. The variety is admirable, but keep in mind that you’ll need a pair of mini-DisplayPort adapters.

At long last, AMD has also implemented HD3D, the company’s take on 3D–and its answer to nVidia’s GeForce 3D Vision. HD3D focuses on support for the Open Stereo 3D Initiative. Instead of creating dedicated hardware, HD3D promises support for a wide variety of methods, ranging from existing active-shutter or polarized glasses, to glasses-free 3D technologies that will eventually work their way to market.

Where performance is concerned, the Radeon HD 6870 made an impressive showing on synthetic benchmarks and in real-world games. Though results on synthetic benchmarks don’t necessarily reflect real-world performance, they do provide a useful idea of how a particular GPU stacks up against the competition. The HD 6870 maintained a consistent lead over the older Radeon HD 5850 in all of our synthetic tests. It’s a pleasure to see a card outperform another while costing about $40 less, but the results here are hardly surprising: The HD 6870 sports an improved tessellation engine and runs at a higher clock speed than the HD 5850, lending the smaller card more muscle in all the right places.

In actual game testing, the performance gap narrowed, but the HD 6870 still came out ahead. All tests were performed at resolutions of 1920 by 1200 and 1680 by 1050 with maximum available settings, and with antialiasing alternately enabled and disabled. The Radeon HD 5850 earned the better score on our Tom Clancy’s H.A.W.X. benchmark, but barely: The average difference of 6 frames per second doesn’t justify the $40 bump in price.

Where power utilization is concerned, the HD 6870 gobbles up a bit more energy when under load on our test bench–246 watts, versus the HD 5850’s 231 watts. But it’s more energy-efficient when idle, consuming 103 watts at rest versus the HD 5850’s 127 watts. Keep in mind that those totals take the entire system’s load into account, so your own measurements will vary; our test bench sports a power-hungry Intel Core i7 980X processor and its accompanying gargantuan heatsink.

In terms of relative power efficiency, the Radeon HD 5850 edged past the HD 6870 ever so slightly–but bear in mind that the 6870 keeps the idle power lower by about 30 watts.

Overall, this choice is a no brainer. AMD’s Radeon HD 5850 had a good run, but it’s outclassed by a newcomer that delivers superior performance, comparable power efficiency, and a lower price tag. A great card may be riding off into the sunset, but the Radeon HD 6870 is a very worthy successor.

Cadillac’s Big Step Toward Automotive Autopilot

While Google’s prototype self-driving car does a fine job commanding headlines, automakers have been rolling out the features that will ultimately lead to a road-ready autonomous vehicle. Cadillac Super Cruise is an important step in that process. Like current adaptive cruise-control systems, Super Cruise, which GM will likely debut by 2023, controls the throttle and brakes and adjusts the distance between the car and surrounding traffic. But Super Cruise adds another detail: It steers. A processor combines camera, radar, and GPS data to guide the car down the center of its lane.

Self-driving Car

General Motors Staff Researcher Dr. Jeremy Salinger road tests a Cadillac semi-autonomous driving technology it calls”Super Cruise” that is capable of fully automatic steering, braking and lane-centering in highway driving under certain optimal conditions Friday, March 23, 2012 in Milford, Michigan. Super Cruise is designed to ease the driver’s workload on the freeway, in both bumper-to-bumper traffic and on long road trips by relying on a fusion of radar, ultrasonic sensors, cameras and GPS map data. The system could be ready for production vehicles by mid-decade. (Photo by John F. Martin for Cadillac)


The driver initiates Super Cruise by pressing a button on the steering wheel. At that point, the system takes control of the wheel, accelerator, and brakes.


A video camera in the rearview-mirror assembly scans for highway lane markers. A processor analyzes the data to adjust the steering and brakes to keep the car safely in the center of the lane. The system also adapts to driver behavior; for example, if the car detects that the driver prefers plenty of room between his vehicle and big semis, it will cheat toward the left- hand lane marker.


The system can assess traffic patterns as well. The processor combines input from three radar sensors (short-, mid-, and long-range) to detect and classify stationary and moving objects. Then it adjusts the throttle and brakes to maintain a minimum distance (the driver can also opt for a longer one) between the car and traffic ahead.


GPS tracks the car’s location, comparing its path to road maps, which allows the system to anticipate upcoming curves, for instance. And if conditions get too hairy for Super Cruise to handle—say, bad weather—motors in the seat vibrate to tell the driver to take the wheel.

This article originally appeared in the July 2013 issue of Popular Science. See the rest of the magazine here.

Ubuntu 10.10 Alpha: Slouching Toward Ubuntu Gnome

Ubuntu 10.10, codenamed Maverick Meerkat, is still two months from its final release. However, if the first alpha and the forecasts about it are an accurate indication, the release is already taking on a character all its own.

Specifically, Maverick may be the release in which the Ubuntu version of GNOME differs from generic GNOME to the point where it should be recognized as a separate desktop — call it Ubuntu GNOME.

Of course, at this point, the character of the release could change. If you look at the blueprints for the release, you will notice that many features are incomplete, or still to be implemented at all. Still, the fact that many of the visible desktop changes are among the first implemented may suggest the emphasis that Ubuntu places upon them (although the ease of implementation or the enthusiasm of the developers may be factors, as well.) At any rate, this is a change that has been coming for at least a year, and in Maverick it is starting to become noticeable. Although all the changes in Maverick do not contribute to this impression, many do.

Those who want to explore Maverick for themselves can download one of the daily build Live CDs. Alternatively, you can see some of the new features in Maverick through the collection of MaverickMovies, a selection of videos about major features. Many of the videos are matched with inappropriate music, but if you turn the sound off, you can at least see some of the upcoming features. You can also try installing from the Live CD to a hard drive, although, if you do, the usual warnings about doing serious work on unstable software apply.

Not all the changes in Maverick contribute to the sense that Ubuntu is developing its own sub-version of GNOME. Of these neutral changes, the most obvious is the installation program.

The installer also features a simpler, starker look. What is most obvious, though, are the adjustments in functionality.

Over the years, Ubuntu has done its best to keep its installer simple. In the 10.10 release, simplicity obviously remains the goal, and some steps, such as the placement of the startup options in the installer, rather than a separate menu and reducing them to two — Try Ubuntu and Install Ubuntu — continue the move toward simplicity. So does the simplified partitioner, in which the options are reduced to automatically using the whole disk and manual partitioning.

However, at the same time, experience has apparently taught Ubuntu developers that more complexity is needed. Before you can start making any choices, the installer suggests that “for best results” you need 2.7 gigabytes of hard drive space, a system plugged into a power source (and not, apparently, one running from a battery), and an Ethernet connection (rather than a wireless one).

The installer also offers an option to install proprietary software — mostly music codecs — “if it is needed for a better experience” and another to choose the hard drive. Only then does the 10.10 installer settle into the choices of previous versions, such as the time zone, keyboard, and user account, or encrypting the drive.

Many of the other features of the Maverick alpha are simple version changes of standard features and applications, such as the GNOME and KDE desktops, or the Linux kernel. Still others are changes in default applications, such as the replacement of F-Spot with Shotwell. For the most part, though, such changes have minimal effects on the Ubuntu menus’ content or order. If you know earlier versions of Ubuntu, you are unlikely to have much trouble navigating the Maverick menus.

Yet the most noticeable changes are those that are starting to make the experience of working in GNOME different in Ubuntu than in any other distribution.

So far, there is no implementation of the so-called “windicators” — the equivalent in windows of the panel’s notification tray on the desktop, and elements that may supercede the window’s bottom status bar. Those who are curious about whether the benefits of windicators can justify having the title bar buttons on the left side of the window will have to wait to see.

Another still-to-be-implemented feature (at least in the nightly build that I am currently investigating) is Multitouch, which adds touch-screen capacities to the desktop.

Intel Centrino, Amd Athlon Xp

This article also appears on Jupitermedia’s CPU Planet site.

Desktops? Those old things?

Intel boasts that top laptop manufacturers worldwide — four times as many as embraced the mobile Pentium 4 CPU at its rollout — are offering lightweight, long-battery-life notebooks sporting the magenta Centrino logo as of today. And it’s subsidizing the construction of WiFi hotspots at outlets ranging from Borders bookstores to McDonald’s restaurants to spread the gospel of wireless Internet and e-mail access.

Actually, the Centrino combo and its centerpiece, the new Pentium M processor — which delivers faster performance and longer battery life at lower clock speeds than the mobile Pentium 4 — would be more than news enough for today. But rival AMD, in a totally noncoincidental move, chose the same date to introduce a dozen new mobile versions of its Athlon XP processor, including the company’s first CPUs in the microPGA packaging format for thin and light notebooks. Let’s take a first look at the suddenly all-new notebook arena.

At first glance, it’s tempting to dismiss AMD’s announcement as a me-too marketing move — we couldn’t help noticing a few weeks ago, just about the time Intel confirmed that the mobile CPU known by the codename “Banias” would be officially called Pentium M, that AMD’s Web site stopped referring to the mobile Athlon XP and started referring to the Athlon XP-M.

But there’s real technology behind today’s 12 new 0.13-micron-process CPUs. Five are low-voltage mobile Athlon XP-M processors — performance ratings 1400+, 1500+, 1600+, 1700+, and 1800+ — with small-form-factor microPGA packaging for slimline notebook designs. They’re based on AMD’s “Thoroughbred” (128K Level 1 and 256K of Level 2 cache) core.

The other new mobile Athlon XP-M processors use AMD’s faithful Socket A packaging. They include 2000+, 2200+, 2400+, and 2600+ chips intended for full-sized, desktop-replacement portables; and 2200+, 2400+, and 2500+ CPUs aimed at mid-sized, mainstream notebooks. All, like the low-voltage XP-Ms, use a 266MHz front-side bus.

The last two (mainstream 2400+ and 2500+) skip the “Thoroughbred” for the newer “Barton” core, with 128K of Level 1 and 512K of Level 2 on-chip cache — which AMD promises will be available for all mobile market segments by mid-2003. For today, the company says, the Athlon XP-M 2500+ outperforms Intel’s 2.4GHz mobile Pentium 4 by up to 10 percent on assorted benchmarks.

AMD adds that the mobile “Barton” will appear in laptops from Fujitsu Siemens (Europe) this month, from Epson Direct (Japan) in April, and from HP in the U.S. in the first half of this year. The low-voltage Athlon XP-M 1700+ (1.47GHz) processor goes on sale today in the U.S. in Fujitsu PC Corp.‘s 4.4-pound LifeBook S2000, which squeezes a 13.3-inch XGA display, 256MB of DDR memory, a 40GB hard disk, and modular DVD-ROM/CD-RW combo drive into a 9.3 by 11.5 by 1.4-inch package. It’s $1,349 (or $1,439 with a 30GB hard disk and integrated 802.11b wireless networking).

As for Intel, the chip giant is risking some confusion in that not all notebooks with the new Pentium M processor will bear the Centrino Mobile Technology brand. The latter honor is reserved for 100-percent “Intel inside” portables, so to speak, built around not only the Pentium M but one of Intel’s two new 855 chipsets and its Pro/Wireless 2100 network adapter (codeveloped by Intel and Cisco Systems).

The new chipsets are the 855PM, which supports separate (third-party) AGP 4X graphics controllers, and 855GM, which integrates the latest version of Intel’s Extreme Graphics (dubbed Extreme Graphics 2) for budget notebooks. Both combine Intel’s latest battery-thrifty tricks, such as an internal timer that automatically turns off the chipset clock when the chipset is inactive, with support for up to 2GB of DDR266 memory; they share a Southbridge controller hub with two ATA/100 channels, AC97 audio, modem, 33MHz PCI/CardBus, and USB 2.0 support (Bluetooth wireless connectivity options will piggyback on the latter).

AMD has already issued a dig at Intel’s house-brand 802.11b solution, noting that Athlon XP-M processors “are designed with an open architecture, helping to ensure that the best available 802.11 wireless solutions from leading companies can be easily integrated” into AMD-based systems. Lots of laptops already offer the faster if 802.11b-incompatible 802.11a or dual-band wireless network support that Centrino, at least for now, lacks, and many more are sure to adopt the high-speed yet backwards-compatible 802.11b successor 802.11g when silicon based on that new standard appears this fall.

Intel retorts that it’ll add 802.11a and other wireless protocols to the Centrino platform soon, and that its current WiFi implementation is smartly optimized to do everything from coexisting with and automatically choosing between 802.11b and Bluetooth (if both are present) to seamlessly managing unplug-and-play, no-reboot-or-interruption transitions between wired to wireless office networks (or all the 802.11b hotspots in Borders, McDonald’s, and other places it’s helping to add to the WiFi roster of Starbucks and hotels).

Meanwhile, AMD’s PR-rating marketeers will be more than issuing a dig at the new Pentium M; they’ll be singing “I told you so” in 20 languages as Intel joins AMD in declaring that instructions per clock cycle, not just raw clock-speed increases requiring big batteries and noisy cooling fans, are the key to PC performance. The fastest Pentium M runs at 1.6GHz, but Intel says its tests with BAPCo’s MobileMark 2002 benchmark show it delivers 15 percent quicker performance than the 2.4GHz mobile Pentium 4 — while getting up to five hours of battery life to a comparable mobile P4 system’s three.

What’s the secret to the new 0.13-micron-process CPU’s performance? Well, for one thing, while it has the same 400MHz front-side bus speed as what we used to call the Pentium 4-M, the Pentium M has more on-chip cache — 64K of Level 1 (32K instruction, 32K write-back data) and a whopping 1MB of Level 2 cache.

More exotic yet, micro-op fusion combines two micro-operations into one, treating certain pairs of x86 instruction segments as a single segment through most of their trip through the CPU pipeline and then resplitting them just in time for execution. The Pentium M supports the SSE2 multimedia extensions to the instruction set first seen in the Pentium 4, but lacks the Hyper-Threading technology that optimizes the 3.06GHz desktop processor for multithreaded applications and multitasking environments.

The main Pentium M models — available in 1.3GHz, 1.4GHz, 1.5GHz, and 1.6GHz flavors — are built to get more out of a laptop battery charge than any previous Intel mobile processor. And a low-voltage 1.1GHz Pentium M and ultra-low-voltage 900MHz Pentium M are built to last still longer.

The target for the standard CPU is power consumption under one watt during normal use (less than half that of the mobile Pentium 4), with overall thermal design power or maximum power dissipation of 24.5 watts for the 1.5GHz and 1.6GHz parts; 22 watts for the 1.3GHz and 1.4GHz; 12 watts for the low-voltage 1.1GHz; and just 7 watts for the ultra-low-voltage 900MHz chip. By contrast, the thermal design power of the 2.4GHz mobile Pentium 4 is 30 watts, while the desktop Pentium 4s range roughly from 50 to 80 watts.

In addition to a power-optimized system bus and L2 cache (with parts of the latter turned off when not needed), the Pentium M also introduces an enhanced version of Intel’s SpeedStep voltage- and clock-speed-regulating technology more akin to the most recent versions of AMD’s PowerNow or Transmeta’s LongRun.

While the mobile Pentium 4 could only switch between two voltages and speed settings (typically full speed and 1.2GHz), each Pentium M can dynamically shift through three to six power/performance levels based on application demand — in the case of the top model, 1.6GHz, 1.4GHz, 1.2GHz, 1.0GHz, 800MHz, and 600MHz (with core voltages ranging from 1.484V to 0.956V).

Hardware Central’s Labs, Weather, & Sports Desk has several hands-on tests of Pentium M and Centrino (as well as Athlon XP-M) notebooks planned for the coming weeks, but today’s news wires are buzzing with announcements of new portables using Intel’s new silicon. Fujitsu’s LifeBook S6000, for example, is a 4.4-pound slimline featuring the Pentium M/1.4 and 855GM chipset plus a 13.3-inch screen; it’ll ship in April starting at $1,499.

Sonysays its new Vaio PCG-Z1A ultralight is “slim, sexy, and unattached” (wireless, get it?). Actually, the 4.7-pound Z1A is slightly thicker than the Vaio 505 series that Sony’s been selling for years, but its swoopy, silver-matte case is designed to appeal to exotic-sports-car drivers and boardroom status seekers. The 1.3GHz notebook starts at $2,200 with a 14.1-inch XGA screen; a model with a 1,400 by 1,050 =-pixel SXGA+ display, 512MB of DDR, and a 60GB hard disk is $2,400.

Dell‘s 5.3-pound, 1.2-inches-thick Inspiron 600m combines the 1.3GHz Pentium M and 855PM chipset with ATI’s Mobility Radeon 9000 graphics accelerator and a 14.1-inch screen for $1,399. A model with a 1.6GHz processor, SXGA+ screen, and Dell’s 802.11b/g PC Card is $1,549.

Dell’s corporate customers can check out the Latitude D600 and D800, available with a new desktop docking stand that elevates the LCD to eye level to make an external monitor unnecessary. Prices for the 14.1-inch-screened D600 start at $1,399, and for the D800 with its 15.4-inch, wide-aspect-ratio display and Nvidia GeForce4 420 Go graphics at $1,699.

Toshiba, too, offers both consumer- and business-oriented Centrino portables: The Satellite Pro M10/15 series puts the accent on multimedia with a 15-inch screen, GeForce4 420 Go graphics, and Harman/Kardon stereo speakers (starting at $1,999), while the 5.7-pound Tecra M1 ($2,154) boasts more than six hours of battery life and just-over-6-pound, desktop-replacement Tecra S1 ($1,979) offers a 15-inch display, full-sized keyboard, and integrated WiFi and Bluetooth. Finally, Toshiba’s new Portege R100 is an ultraportable 2.4 pounds and 0.6 inch thin; it comes with a 12-inch polysilicon display for $2,199.

HP says the Compaq Evo N620c delivers up to six hours of battery life in an under-5-pound, 14.1-inch-screened package; it starts at $1,799 with a Pentium M/1.4 processor, 40GB hard disk, and DVD drive, but isn’t an official Centrino system as a later, HP-brand business notebook will be (the Evo has an integrated Gigabit Ethernet controller and optional 802.11b and Bluetooth). By contrast, Gateway‘s 6.2-pound 450X wears the Centrino label; it starts at $1,599 with a 15-inch SXGA+ screen and DVD-ROM/CD-RW combo drive, and you can choose any Pentium M speed from 1.3GHz to 1.6GHz.

Bitcoin Continues Declining While Whales Keep Accumulating Tokens

One month ago, analysts seemed certain that by now Bitcoin wouldn’t have any problems maintaining the $20,000 target. However, as the first week of September comes to an end, it’s evident that bears are still in control as Bitcoin drops down to $19,748 once again. The exact catalysts still remain a mystery, while some investors speculate that the Ethereum Merge is to blame. Other crypto assets have also been underperforming in the last 24 hours, with some meme coins like Tamadoge being an exception. In fact, Tamadoge is one of the rare currencies at the moment that experts believe could bring huge profits towards the end of 2023.

Indicators that Suggest Bitcoin Price Recovery

Crypto whales (large volume investors) seem to be unaffected by the latest updates and continue investing their money into to the largest crypto in terms of market cap. According to several sources, there are currently 92 wallet addresses that hold between 10,000 and 100,000 BTC. For comparison, there were 79 addresses at the beginning of March 2023. As long as whales keep supporting the asset, there is a good chance that a turnaround will come in the upcoming weeks. From what we’ve seen so far in the crypto market, a rise in demand is typically followed by a bullish trend. What’s more, the MVRV (Market Value Realized Value) suggests that Bitcoin is already back in the ‘buy zone’, which indicates that the current price is significantly undervalued. Whales might push for even lower BTC prices and will then go for the ultimate swing that will not only surpass the $20,000 mark, but start a strong bullish trend. Considering this information, it’s very possible for Bitcoin to recover, but it’s essential for it to first maintain the $19,600 mark. In case the demand suddenly plummets, investors have to be ready for another bearish run that could lead to a price below $19,000. Interestingly, some analysts have pointed out that we’re seeing the so-called “September” phenomenon once again. Over the past few years, we’ve always seen Bitcoin’s value slightly decline at the beginning of September, and it seems that this year is no different. We already mentioned that the upcoming Ethereum Merge could be one of the catalysts, but there are a few other possibilities that should be explored. For starters, the energy crisis is rapidly unfolding all over Europe as the war in Ukraine continues with no foreseeable end. Additionally, the euro just recorded a new twenty-year low in comparison to the United States dollar and the stock market is still facing a strong greenback. All of these factors combined could be responsible for Bitcoin’s slow September start.

Tamadoge Outperforming Bitcoin – Huge Gains on the Way?

While Bitcoin is still struggling to regain its form, certain meme coins have been taking over the crypto market – and Tamadoge is leading the pack. This project successfully closed out its beta sale a few weeks ago, while the presale ended on September 1st with an astonishing $11 million raised in funding. One of the main reasons why Tamadoge is so attractive to investors is that it offers something that not even Dogecoin and Shiba Inu can compete with – cutting-edge tokenomics and real-world utility. Unlike other meme coins that have nothing to offer aside from a cute dog picture, Tamadoge incorporates a variety of elements that make it a profit time bomb. Tamadoge is essentially a crypto meme coin that utilizes NFT, Metaverse, and P2E elements. Its native token is TAMA, which is also used for all platform activities like transactions and staking. Notably, there are no tax fees imposed on TAMA fees, which is a huge plus for traders looking to capitalize on the token. This cryptocurrency was inspired by Tamagochi, the pet game that was immensely popular in the 90s and revolved around preparing pets for battle. The gameplay in Tamadoge is fairly similar. Players acquire Tama pets (in form of NFTs) and take care of them as they grow up. Once they mature, they use them in battles for a chance to win exclusive rewards from the Dogepool. Even though the presale ended a few days ago, it’s still not too late to capture the low price of TAMA and count profits in the next few months. Crypto analysts are calling Tamadoge the next “100x return” token and the possibility of it eventually dethroning DOGE and SHIBA is looking more realistic by the day. Lastly, investors should know that there’s no “rug pull” danger with Tamadoge – the project was KYC’d by CoinSniper and smart contract audited by SolidProof.

How to Buy Tamadoge                                

Here is the exact guide you can follow for your first TAMA token purchase.   STEP 1 To begin, make sure you have a MetaMask wallet installed on your browser, or use one of the wallets supported by Wallet Connect (we recommend Trust Wallet). Purchasing on a desktop browser will give you a smoother purchasing experience. For this we recommend MetaMask. If you are purchasing on mobile, we recommend using Trust Wallet and connecting through the in-built browser (just copy STEP 2 You will then have three options: Buy ETH With Card. This option will allow you to purchase ETH that will be sent to your wallet by our partner, Transak. Your wallet provider will ask you to confirm the transaction and will also show you the cost of gas. Buy TAMA with USDT. Please ensure you have at least $15 of USDT in your wallet before commencing the transaction.   STEP 3 Once the presale has concluded, you will be able to claim your TAMA tokens. We will release details closer to the time, however you will need to visit the main site

Tamadoge Contract

Use the contract information below to add the TAMA token to your wallet. Address: 0x12b6893cE26Ea6341919FE289212ef77e51688c8 Decimals: 18 Token symbol: TAMA

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