How Spotify changed password sharing and how the cloud enables it

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According to the Computer Fraud and Abuse Actunauthorised access of computers is a federal crime. However, the law’s vague definition of «unauthorised access,» highlighted by a recent New York court case, has consumer advocates and business groups worried. 

This past July, the US Court of Appeals for the Ninth Circuit upheld defendant David Nosal’s conviction for using a colleague’s login credentials to access his employer’s research databases.

Nosal is far from the first person to be convicted on such charges. In October 2015, former Reuters journalist Matthew Keys was sentenced to two years in prison for sharing usernames and passwords with «hacktivist» collective Anonymous. 

Despite being illegal, password sharing is ubiquitous. A 2016 LastPass survey found that a staggering 95% of U.S. consumers share passwords with significant others, children, co-workers, and friends. 

Rampant password sharing puts content streaming services, law enforcement, and consumers in a difficult position. Do we prosecute everyone who’s ever shared a Netflix password? Or do we pretend the law doesn’t exist and let hackers off the hook? 
 
Spotify has managed to devise a solution that avoids the situation altogether. 

The content access conundrum 

To comply with content owner copyright guidelines, a streaming or cloud service user must be authorised by the provider. Most websites and online services use password authentication to enforce these rules. 

Between password-protected bank, utility, news, and entertainment sites, it’s common for consumers to juggle dozens of passwords. It’s also easy for them to share those credentials with others. 

To prevent this account abuse, content providers analyse login times, locations, and devices to spot suspicious patterns. Service providers send warnings and threatening emails to inform users that account sharing has been spotted, but most of these companies are attacking the wrong problem. 

The issue with subscription sharing isn’t unfettered access to gated apps and sites. Frankly, traffic data can be useful to marketers. The real issue is simultaneous access to media.

Netflix, for example, doesn’t care if 10 people use the same credentials to browse movies. But when all 10 users simultaneously stream content, the company pays for 10 large data streams and heftier licensing costs. In 2015, Netflix budgeted more than $6 billion for licensing deals through 2018 — the streaming video giant’s largest expense.  

Tune in to Spotify’s solution

Spotify — unlike Netflix, HBO, and dozens of others — handles the problem in a unique way that offers valuable features to users. 

 

The music streaming service uses real-time technology to maintain a live, two-way connection to devices running the app, including laptops, phones, tablets, smart TVs, receivers, and more. This live connection ensures only one song is played at a given time by each Spotify account, regardless of how many people are logged in. 

Imagine you’re jamming to AC/DC when your cousin decides to listen to Drake using the credentials for your account. Your music cuts off within milliseconds of your relative pressing play, and you’re notified of the remote access. When you press play to resume «Thunderstruck,» your cousin’s music stops and he gets the same message.

 

What’s more, the live connection enables features such as the ability to start a song on a smartphone and switch to another device, like a laptop, without skipping a beat. It’s an innovative feature that helps Spotify continue to disrupt the music industry while staying compliant. 

Sharing beyond the streaming industry

So why hasn’t every streaming provider and secure site followed Spotify’s lead? 

Until recently, it was difficult to build reliable, high-speed two-way connections. Spotify implemented these connections at a global scale because of its exceptional engineers and worldwide data centers, but not every organisation had such resources. 

But that’s changed. Today, global data stream networks are easily plugged into existing content-provider applications. Using technology from companies such as Pusher, Google, PubNub, and more, content providers can capitalise on Spotify’s brilliant solution. 

And it doesn’t need to stop there. Cloud services like Amazon have embraced two-way data stream connections, and the proliferation of publicly accessible Wi-Fi and the FCC wireless spectrum auctions are both set to remove bottlenecks in wireless data transfer capabilities. 

This new manner of authentication will soon move beyond content providers to reinvent how other sectors manage account access. Perhaps there’s nothing truly wrong with an executive allowing a secretary to log in to his workstation or a family sharing a Netflix account. 

Spotify has revolutionised content streaming in more ways than it’s given credit. By the time Nosal is released from prison, the rest of us hopefully won’t have to worry about being incarcerated for something as prevalent as password sharing. 

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Google Cloud’s Presence in India

India is a growing market fueled by its economic aspirations and young demographics. It’s little wonder that every major company in the world has a presence here, and Google is no different. It plans to set up a dedicated data center in Mumbai during 2017 to cater to the growing demands of Indian businesses.

This is an important move for Google because the Indian market is too large to be ignored. Already AWS and Microsoft have a presence here. However, the Indian cloud market is still in the developing stage, so any investments here is likely to grow with the cloud sector. All the major cloud providers understand the current situation, as well as the potential it offers during the next decade or so.

Currently, many businesses in India are in the unorganized sector, especially small and medium enterprises. Many of these SMEs still prefer to use cash for their everyday transactions, and only have a limited exposure to technology. All this is expected to change within the next few years – thanks to awareness about the benefits of universal education and the Indian government’s robust economic policies.

India has a young population, and the education levels are slowly and steadily increasing. Many children attend private or government schools, and they are getting exposed to a lot of technology. This means, they will grow up in a digital space, and it won’t be long before they drive the digital world. Another significant factor is the Indian government’s push towards a digital economy. Single-window business clearances, demonetization, and other steps are ensuring that more people would embrace the digital world for their everyday needs. While the results won’t be imminent right away, it’s sure to make a difference within the next five years. When that happens, tech companies want to be in a position to tap into the demand, and this is why they’re planning ahead of time.

Another reason for Google’s Indian presence is its aim to become a leader in the Japan and Asia Pacific region. To this end, it has invested about $9.9 billion in 2016 alone, and this has led to the emergence of two centers – one in Taiwan and the other in Japan. In 2017, it plans to open three more centers in Asia, out of which one will be in Mumbai. The company reiterated that Mumbai will be a region with three zones, but this doesn’t necessarily mean three data centers. Rather what it means is that these zones will ensure a risk-free and fall-tolerant service, but could encompass any number of data centers, but all of them will be located in the Mumbai region.

Though there are many cities in India, Google announced that it chose Mumbai because it is the financial capital of the country, and many local businesses are already using cloud or are planning to move to it soon.

This announcement is good news for the Indian economy as it will generate more employment opportunities, and can also assist the government’s plans to move the country to a digital space.

The post Google Cloud’s Presence in India appeared first on Cloud News Daily.

HPE, Cisco maintain lead in cloud infrastructure equipment market

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The competition in cloud seems tough as organisations are girding well to grab the lion’s share in the market. The new Q3 data from Synergy Research Group shows Hewlett Packard Enterprise (HPE) maintained a narrow lead over rival Cisco in the strategically important cloud infrastructure equipment market.

The data showed Dell EMC challenging the top two after the completion of their historic merger. 

At the same time, original design manufacturers (ODMs) or contract manufacturers, in aggregate, are continuingly increasing their share of the market, driven by continued heavy investments in data centres by hyper-scale cloud providers. Microsoft and IBM complete the group of top cloud infrastructure vendors.

According to Synergy, HPE and Cisco have been in a closely contested leadership battle in the cloud market for the last sixteen quarters, over which time their total revenues are virtually identical.

And across the different types of cloud deployment, Cisco continues to hold a commanding lead in public cloud infrastructure while HP has a clear lead in private cloud.

Revenues continue to grow

The research firm predicts the total cloud infrastructure equipment revenues, including public and private cloud, hardware and software, to reach $70bn in 2016 and continue to grow at a double-digit pace.

Servers, OS, storage, networking and virtualisation software, all combined, accounted for 94% of the Q3 cloud infrastructure market and the balance comprised cloud security and cloud management.

Moreover, HPE leads the cloud server segment and is a main challenger in storage, while Cisco is dominant in the networking segment and also has a growing server product line.

Dell EMC is the second-ranked server vendor and has a clear lead on storage. Microsoft features heavily in the ranking due to its position in server OS and virtualisation applications, while IBM maintains a strong position across a range of cloud technology markets.

John Dinsdale, a chief analyst and research director at Synergy Research Group: “Growth in private cloud infrastructure is slowing down as enterprises shift more attention and workloads to the public cloud, but that means that there is a continued boom in shipments of infrastructure gear to public cloud providers.

For traditional IT infrastructure vendors there is one fly in the ointment though — hyperscale cloud providers account for an ever-increasing share of data centre gear and many of them are on a continued drive to deploy own-designed servers, storage and networking equipment, manufactured for them by ODMs.

ODMs in aggregate now control a large and growing share of public cloud infrastructure shipments.”

Arquitecturas i386, i486, i586, i686, i786

En los paquetes podemos encontrar que esta compilado para 32 bits usando i386 o i586 generalmente.

La diferencia radica en el set de instrucciones que usa el binario. Las diferentes generaciones son:

  • i386: Intel i386/80386 (1985) y AMD386 (1991)
  • i486: Intel i486/80486 (1989) y AMD486 (1993)
  • i586: Intel Pentium (1993) y AMD-K5 (1996)
  • i686: Intel Pentium Pro (1995) y AMD-K6 (1997)
  • i786: Intel Pentium 4 (2000) y AMD-K7 (1999)

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